Department of Electronics & Telecommunication · PDF fileDepartment of Electronics &...
Transcript of Department of Electronics & Telecommunication · PDF fileDepartment of Electronics &...
Department of Electronics & Telecommunication Engineering
1
Third Year Engineering
Semester – VI
Course Structure
Sr.
No.
Subject
Teaching Scheme
( hrs)
Examination Scheme
(Marks)
L T P Total Theory TW POE OE Total
1 Digital Signal Processing 4 -- 2 6 100 25 -- -- 125
2 VLSI Design 3 2 5 100 25 50 -- 175
3 Microprocessor and
Microcontrollers 4 - 2 6 100 25 50 -- 175
4 Optical Communication &
Network 4 - 2 6 100 25 -- -- 125
5 Industrial Management 3 -- 3 100 25 -- -- 125
6 Electronic System Design 2 - 2 4 -- 25 -- 50 75
7 Total 20 - 10 30 500 150 100 50 800
Index
Sr. No. Subject Subject code Page No.
1 Digital Signal Processing ETC307 02
2 VLSI Design ETC308 13
3 Microprocessor and Microcontrollers ETC309 26
4 Optical Communication & Network ETC310 35
5 Industrial Management ETC311 45
6 Electronic System Design ETC312 55
Department of Electronics & Telecommunication Engineering
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Course Title – Digital Signal Processing
Course Digital Signal Processing Course Code ETC307
Examination
Scheme
Theory Term Work POE Total
Max. Marks 100 25 50 175
Contact
Hours/ week
3 2 -- 5
Prepared by Mr.R.J.Patil, Ms. Z.J. Tamboli Date 2/11/2015
Prerequisites Basic concepts of theory of digital signals and their applications in processing,
convolution and applied sciences
Course Outcomes : At the end of the course the students should be able to:
CO307.1 Compute DFT of the signal using various methods.
CO307.2 Design FIR filters using various methods for given order.
CO307.3 Design IIR filters using different methods.
CO307.4 Describe different Adaptive algorithms.
CO307.5 Illustrate different transformations to analyze given problems.
CO307.6 List different applications of DSP.
Mapping of COs with POs
PO
CO a b c d e f g h i j k l
CO307.1 √ √
CO307.2 √ √
CO307.3 √ √ √ √
CO307.4 √ √ √ √
CO307.5 √ √
CO307.6 √ √ √
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Course Contents
Chapter
No. Title
No. of
Hours
Section I
1 UNIT-I:The Discrete Fourier Transform and FFT
Introduction to DSP system, DFT, Relation between DFT and Z
Transform. Properties of DFT, Circular convolution, DFT. & IDFT FFT
algorithms (DIT FFT & DIF FFT) implementation aspects, fast
convolution signal, segmentation (overlap save & overlap-add
algorithm) correlation circular correlation, IFFT,DFT properties of
circular correlation.
08
2 UNIT-II : FIR Filter Design
Characteristics of FIR filter, properties of FIR filter, digital N/W for FIR
filter, frequency sampling ,Fourier series & windowing method, filter
design using Kaiser window, Realization of FIR direct form structures
cascade, parallel
06
3 UNIT-III : IIR Filter Design. Impulse invariant Tech. Bilinear
transformation, Placement of poles & zeros, frequency band
transformation, analog filter approximation (Butterworth) quantization
and rounding problems, Effect of finite word length on stability and
frequency response., Realization of IIR direct form structures cascade,
parallel
06
Section II
4
UNIT-IV: Adaptive filters
Introduction to adaptive signal processing, Adaptive direct form FIR
filters- LMS algorithm
04
5 UNIT-V: DCT & wavelet Transform
Forward DCT, Inverse DCT, DCT as a orthogonal transformation.
Introduction to wavelets, time frequency representations, continues time
wavelet, Continues wavelet transform (CWT), Inverse CWT, Properties
of CWT, Discrete wavelet transform, STFT, Comparison of Fourier
transform & wavelet transform ,Application of wavelets transforms
10
6 UNIT-VI : Application of Digital Signal Processing
Voice processing Analysis of speech signal, Speech analysis, Synthesis,
System compression and coding channel vocoder, Sub band and coding
Image processing, Biomedical signal processing - ECG
06
Department of Electronics & Telecommunication Engineering
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Reference Books:
Sr. No. Title of Book Author Publisher/Edition Topics
1
Digital Signal Processing
Principles, Algorithms and
Application
John G Prokis,
Manolakis
Pearson
Education
publication
All
2
Digital Signal Processing Salivahanam, A
Vallavaraj, C.
Guanapriya,
Tata McGraw
Hill 1,2,3,6
3 Digital Signal Processing SanjeetMitra MGH 1,2,3
4 Digital Signal Processing P. Ramesh Babu Scitech
publication 1
5 Digital Signal Processing E.C.Ifeachor Barrie W. Jervis 2,3
6 Digital Signal Processing Ashok Ambardar Cengage
learning 4,5,6
7 Digital Signal Processing Dr.S.D.Apte Willey India 4,5,6
Scheme of Marks
Section Unit No. Title Marks
I 1. The Discrete Fourier Transform 12
I 2. FIR Filter Design 24
I 3. IIR Filter Design 16
II 4. Adaptive filters 16
II 5. DCT & wavelet Transform 12
II 6. Application of Digital Signal Processing 8
Course Unitization
Section
Unit Course
Outcomes
No. of Questions in
No. Title CAT-I CAT-II
I 1. The Discrete Fourier
Transform
CO307.1 02
2. FIR Filter Design CO307.2 02
3. IIR Filter Design CO307.3 02
II 4. Adaptive filters
CO307.4
02
5. DCT & wavelet Transform
CO307.5 02
6. Application of Digital
Signal Processing
CO307.6
02
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Unit wise Lesson Plan
Unit No 1. Unit Title The Discrete Fourier Transform and FFT Planned
Hrs.
8
Lesson schedule
Class
No.
Details to be covered
1. Introduction to DSP system, DFT.
2. Relation between DFT and Z Transform. Properties of DFT.
3. Circular convolution, DFT. & IDFT.
4. FFT algorithms (DIT FFT & DIF FFT) implementation aspects.
5. Fast convolution signal.
6. Segmentation (overlap save & overlap-add algorithm) correlation circular correlation.
7. Inverse FFT.
8. DFT properties of circular correlation.
Review Questions
Q1 Determine the eight-point DFT of the signal x(n)= {1,1,1,1,1,1,0,0} and
sketch its magnitude and phase.
CO307.1
Q2 Explain DIT- FFT algorithm in detail. CO307.1
Q3 Explain DIF- FFT algorithm in detail. CO307.1
Q4 Explain overlap – add segmentation method in detail. CO307.1
Unit No 2 Unit Title FIR Filter Design Planned
Hrs.
06
Lesson schedule
Class
No.
Details to be covered
1 Characteristics of FIR filter, properties of FIR filter.
2 Digital N/W for FIR filter.
3 Frequency sampling, Fourier series & windowing method.
4 Filter design using Kaiser window.
5 Realization of FIR direct form structures cascade.
6 Realization of FIR direct form structures cascade.
Review Questions
Q1 Explain the design procedure of FIR filter using Kaiser window. CO307.2
Q2 Design a linear phase FIR low pass filter of order seven with cut off
frequency 1 rad/sec. using
CO307.2
Q3 rectangular window. CO307.2
Q4 Use frequency sampling method to design a linear phase low pass FIR
filter with cut off frequency
CO307.2
Q5 wc=π/2 for N=17. CO307.2
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Q6 Discuss in detail Direct form and cascaded form realization for FIR
systems.
CO307.2
Unit No 3 Unit Title IIR Filter Design Planned
Hrs.
06
Lesson schedule
Class
No.
Details to be covered
1 Impulse invariant Tech. Bilinear transformation.
2 Placement of poles & zeros.
3 Frequency band transformation.
4 Analog filter approximation (Butterworth) quantization and rounding problems.
5 Realization of IIR direct form structures cascade.
6 Realization of IIR direct form structures cascade.
Review Questions
Q1 Compare FIR filters and IIR filters. CO307.3
Q2 Write a note on ‘Quantization and rounding in digital filter’. CO307.3
Q3 Explain the concept of frequency warping and its effect on frequency
transformation.
CO307.3
Q4 Explain Bilinear transformation method for IIR filter design. CO307.3
Q5 Design a digital IIR filter using impulse invariant method for a transfer
function H(s)=10/(s2+7s+10) andTs=0.2 sec.
CO307.3
Unit No 4. Unit Title Adaptive filters Planned
Hrs.
4
Lesson schedule
Class
No.
Details to be covered
1. Introduction to adaptive signal processing
2. Forms of Adaptive filters
3. Direct form FIR filter
4. LMS algorithm
Review Questions
Q1 Explain Adaptive signal processing CO307.4
Q2 List the advantages of adaptive signal processing CO307.4
Q3 Explain the direct form of FIR filters CO307.4
Q4 Explain LMS algorithm in detail CO307.4
Unit No 5 Unit Title DCT and wavelet transform Planned
Hrs.
10
Lesson schedule
Class Details to be covered
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No.
1 Forward DCT
2 Inverse DCT
3 DCT as orthogonal transformation
4 Introduction to wavelets, time frequency representation
5 Continuous time wavelet, Inverse CWT
6 Properties of CWT
7 Discrete wavelet transform
8 STFT
9 Comparison of Fourier transform and wavelet transform
10 Application of wavelet transform
Review Questions
Q1 What are the advantages of DCT? Explain in detail forward and inverse DCT CO307.5
Q2 What are the limitations of Fourier transform? What are the merits of wavelet
transform? CO307.5
Q3 What are the various potential uses of wavelet transform? CO307.5
Q4 Explain any four properties of CWT CO307.5
Q5 What are the properties of DCT CO307.5
Q6 Differentiate between Fourier transform and wavelet transform
CO307.5
Unit No 6 Unit Title Applications of Digital signal Processing Planned
Hrs.
06
Lesson schedule
Class
No.
Details to be covered
1 Voice processing, analysis of speech signal
2 Speech analysis
3 Synthesis, System system compression and coding channel vocoder,
4 Sub Band and coding
5 Image processing
6 Biomedical signal processing-ECG
Review Questions
Q1 Write a note on” sub band coding of speech and audio signals” CO307.6
Q2 Write a note on “ECG signal processing” CO307.6
Q3 Explain the application of adaptive filter in echo cancellation CO307.6
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Model Question Paper
Course Title : Digital Signal Processing
Duration 3 Hours Total
Marks
100
Instructions:
All questions are compulsory.
Section-I
Marks
1 Attempt any two
A Explain DIF- FFT algorithm in detail. 9
B Design the first order high pass digital butterworth filter whose cut off
frequency is 1 KHz at sampling frequency of 104 samples/sec. Use
BLT method.
9
C What is sectioned convolution? Explain in detail the overlap add
method
9
2 Attempt any two
A Explain the design procedure of FIR filter using Kaiser window. 8
B Explain the concept of frequency warping and its effect on frequency
transformation.
8
C Write a note on FIR filter using Fourier series 8
3
A Write a note on i) Comparison of FIR filters and IIR filters.
ii) Quantization and rounding in digital filter.
8
B Determine the eight-point DFT of the signal x(n)= {1,1,1,1,1,1,0,0}
and sketch its magnitude and phase.
8
C Design a digital IIR filter using impulse invariant method for a transfer
function H(s)=10/(s2+7s+10) and
Ts=0.2 sec.
8
Section-II
4 Attempt any three Marks
A What is adaptive filter? Explain various application of adaptive filter 9
B Explain LMS algorithm. What are its practical limitations? 9
C What are the advantages of DCT? Explain in detail forward and
inverse DCT
9
5 Attempt any two
A What are the limitations of Fourier transform? What are the merits of
wavelet transform
8
B What are various potential uses of wavelet transform 8
C Explain any four properties of CWT 8
Department of Electronics & Telecommunication Engineering
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6 Write short note on any three
A What are the properties of DCT 8
B Write a note on” sub band coding of speech and audio signals” 8
C Write a note on “ECG signal processing” 8
Assignments
List of assignments to meet the requirements of the syllabus
Assignment No. 1
Assignment Title FFT Algorithms CO
Batch I Explain DIF- FFT algorithm in detail. CO307.1
Batch II
Design the first order high pass digital butterworth filter whose
cut off frequency is 1 KHz at sampling frequency of 104
samples/sec. Use BLT method.
CO307.3
Batch III What is sectioned convolution? Explain in detail the overlap
add method
CO307.1
Batch IV Explain the design procedure of FIR filter using Kaiser
window.
CO307.2
Assignment No. 2
Assignment Title Transform and Application CO
Batch I Write a note on “DSP in ECG Processing” CO307.6
Batch II Differentiate between Fourier transform and wavelet transform CO307.5
Batch III What are the applications of DCT CO307.6
Batch IV 1. Write a note on LMS algorithm CO307.4
List of additional assignments
Assignment No. 1
Assignment Title CO
Batch I Write a note on i) Comparison of FIR filters and IIR filters.
ii) Quantization and rounding in digital filter. CO307.2
Batch II Determine the eight-point DFT of the signal x(n)=
{1,1,1,1,1,1,0,0} and sketch its magnitude and phase. CO307.1
Batch III
Design a digital IIR filter using impulse invariant method for a
transfer function H(s)=10/(s2+7s+10) and
Ts=0.2 sec.
CO307.2
Batch IV
Using frequency sampling method, design a band-pass filter
with the given specifications. Sampling freq. F=8000 Hz and
cut off frequencies fc1=1000 Hz; fc2=3000Hz. Determine the
filter coefficients for N=7.
CO307.1
List of open ended assignments
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Assignment No. 2
Assignment Title CO
Batch I
The first five points of eight point DFT of a real valued
sequence are
{ 0.25,0.125 - j0.3018,0,0.125 - j0.0518,0}. Determine
remaining 3 points.
CO307.1
Batch II Discuss in detail Direct form and cascaded form realization for
FIR systems. CO307.2
Batch III
An FIR filter has the input impulse response sequence
h(n)={2,2,1}. Determine the output sequence in response to the
input sequence x(n)={3,3,-2,0,+2,1,0,-2,-1,0} using overlap
add method.
CO307.3
Batch IV
Design the first order high pass digital Butterworth filter
whose cut off frequency is 1 KHz at sampling frequency of 104
samples/sec. Use BLT method.
CO307.2
List of experiments
List of experiments to meet the requirements of the syllabus
Experiment No. Experiment title CO
1. Generation of DT signals CO307.1
2. Convulation and Correlation of signals CO307.1
3. Computation of DFT and ODFT using standard formula CO307.2
4. Computation of DFT using FFT algorithms CO307.2
5. Computation of circular convulation CO307.2
6. Design of LPF,HPF, BPF, BRF filter using fourier series
method
CO307.3
7. Design of LPF,HPF, BPF, BRF filter using Frequency
sampling method
CO307.3
8. Design of FIR filter using Kaiser window CO307.3
9. Design of IIR LPF,HPF, BPF, BRF filter using impulse
invariant method
CO307.3
10. Design of FIR LPF,HPF, BPF, BRF filter using Billinear
transformation method
CO307.3
11. Design of IIR filter using placement of poles and zeroes CO307.4
List of additional experiments
Experiment No. Experiment Title CO
1. Study of FIR HPF filter CO307.3
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2. Study of IIR HPF filter CO307.3
3. Study of IIR BRF filter CO307.3
List of open ended experiments
Experiment No. Experiment Title CO
1. Study of FIR BPF filter CO307.3
2. Study of IIR BRF filter CO307.3
3. Study of IIR BPF filter CO307.3
Department of Electronics & Telecommunication Engineering
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Course Title – VLSI Design
Course VLSI Design Course Code ETC308
Examination
Scheme
Theory Term Work POE Total
Max. Marks 100 25 50 175
Contact
Hours/ week
Theory Tutorial Practical Total
3 - 2 5
Prepared by Mr. Mahantesh P. Mattada Date 31/10/2015
Prerequisites This course requires the student to know about the fundamentals of combinational
& sequential logic design.
Course Outcomes : At the end of the course the students should be able to:
CO308.1 Design digital components/circuits using HDL
CO308.2 Design combinational circuits using different styles of modeling in VHDL
CO308.3 Design FSM, Model sequential logic circuits using VHDL.
CO308.4 Summarize the basic principles of CMOS design.
CO308.5 Describe the features & internal architectures various PLDs
CO308.6 Select appropriate testing methodology for a given digital circuit.
Mapping of COs with POs
POs Cos
a b c d e f g H i j k l
CO308.1 √ √ √ √ √
CO308.2 √ √ √ √ √
CO308.3 √ √ √ √
CO308.4 √ √
√ √
CO308.5 √ √ √
CO308.6 √ √
√
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Course Contents
Unit No. Title No. of
Hours
I
Introduction to VHDL
Level of abstraction. Need of HDL, VLSI Design flow, Features and
capabilities of VHDL, Elements of VHDL (Entity, Architecture,
Library, Package, and Configuration), Identifiers, literals, data types,
operators and Attributes (type, signal, signal value, array, block)
08
II
Combinational logic design using VHDL
Adder, subtractor, decoder, encoder, tristate-buffer, multiplexer, parity
generator, Parity checker, comparator using Concurrent & Sequential
statements.
07
III
FSM Design Using VHDL
Wait statement, delays, inertial delay, Transport delay, VHDL
implementation of counter, sequence detector, Design of content
Addressable memory CAB.
06
IV
Introduction to Verilog
Basic Verilog naming conventions, Verilog operators, data types,
assignment
05
V
MOS Transistor theory
Physical structure of MOS transistor, MOS transistor under static
conditions, Introduction to CMOS inverter and its V-I characteristics.
05
VI
PLD Architectures and Testing
Xillnx9500 series, CPLD(XC9572), Spartan-IIIE FPGA (XC3S500E),
Testing: Fault models, path sensitizing random test design for
testability, Built - in self test and Boundary scan.
05
Text Books:
Sr.
No.
Title of Book Author Publisher Units
1 Fundamentals of Digital Logic
with VHDL design
Stephen Brown and
Zvonko Vranesic
Tata – Mcgraw
Hill
1 ,2,3,
6
2 “Digital integrated circuits- A
design perspective”, 2nd edition,
Jan Rabaey, Anantha
C,
PHI 5
3 “VLSI Design” (For Unit - 4) Debaprasad Das Oxford
University press.
4
Reference Books:
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Sr. o. Title of Book Author Publisher/Edition Topics
1 “Design Through Verilog HDL” TR Padmanabhan,
B. Bala Tripura
Sundari,
Wiley
Publications.
4
2 Xilinx synthesis tool details- xst
Datasheets
- Xilinx 6
3 VHDL a Design Oriented approach S.S.Limaye Mcgraw-hill
Compnies
1,5
4 Principals of Digital System
Design using VHDL
Roth, John Cengage Learning 1,2,3,6
Scheme of Marks
Unit No. Title Marks with
options
1 Introduction to VHDL 14 to 18
2 Combinational logic design using VHDL 16 to 18
3 FSM Design Using VHDL 16 to 18
4 Introduction to Verolog 10 to 16
5 MOS Transistor Theory 12 to 18
6 PLD Architectures and Testing 16 to 20
Course Unitization
Unit Course Outcomes No. of Questions in
No. Title CAT-I CAT-II
1 Introduction to VHDL CO308.1 2
2 Combinational logic design using VHDL CO308.2 2
3 FSM Design Using VHDL CO308.3 2
4 Introduction to Verilog CO308.2 2
5 MOS Transistor Theory CO308.4 2
6 PLD Architectures and Testing CO308.5,308.6 2
Unit wise Lesson Plan
Unit No I Unit Title Introduction to VHDL Planned
Hrs.
08
Lesson schedule
Class
No.
Details to be covered
1 Level of abstraction. Need of HDL
2 VLSI Design flow, Features and capabilities of VHDL
3 Elements of VHDL- Entity, Architecture
4 Elements of VHDL- Library, Package
5 Elements of VHDL- Configuration
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6 Identifiers, literals, data types
7 Operators
8 Attributes
Review Questions
Q1 Draw VLSI system design flow diagram and briefly explain each block. CO308.2
Q2 What is meant by ‘package’ in VHDL? CO308.2
Q3 With the help of proper syntax briefly write about package body and
package declaration.
CO308.2
Q4 Which are the different types of Operators that operate on signals,
variables and constants in VHDL?
CO308.2
Q5 Summarize types of operators and with suitable examples elaborate
‘shift’ operators.
CO308.2
Unit No II Unit Title Combinational logic Design using VHDL Planne
d Hrs.
07
Lesson schedule
Class
No.
Details to be covered
1 Adder Concurrent& Sequential statements
2 Subtractor Concurrent& Sequential statements
3 Decoder Concurrent& Sequential statements
4 Encoder Concurrent& Sequential statements
5 Tristatebuffer, multiplexer Concurrent& Sequential statements
6 Parity generator, Parity checker,
7 Comparator using Concurrent& Sequential statements.
Review Questions
Q1 Write behavioral VHDL code for tristate buffer. 308.2
Q2 Write VHDL code to describe 4-bit Binary to Gray converter. OR Write a
VHDL code to describe 4 input binary to gray converter
CO308.2
Q3 Describe using VHDL code for 8-bit comparator. If A and B are 8-bit
numbers. comparator has three output A >B, A < B and A= B. use 4-
bit comparator to implement 8-bit comparator.
CO308.2
Q4 Write a VHDL code for full adder using three styles of modeling CO308.2
Q5 Write a VHDL code for even parity generator having 8 input bits and 1
bit parity output. OR Write VHDL code for even parity generator
CO308.2
Q6 Write a syntax and explain with example generate statement OR Write
syntax of For- Generate. Give suitable example
CO308.2
CO308.2
Unit No III Unit Title FSM Design using VHDL Planned
Hrs.
06
Lesson schedule
Class
No.
Details to be covered
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1 Wait statements with examples
2 Delays: Inertial delay, Transport delay, Delta delay
3 VHDL implementation of counter
4 VHDL implementation of sequence detector-Mealy Model
5 VHDL implementation of sequence detector-Moore Model
6 Design of content addressable memory CAB.
Review Questions
Q1 Explain different types of wait statements in VHDL with example CO308.3
Q2 Design a Mealy FSM to detect an overlapping sequence (i) “1011” (ii)
1101 and describe using VHDL.
CO308.3
Q3 What are the different types of delays in VHDL? Explain with example. CO308.3
Q4 Write a VHDL code for up counter with synchronous and with
asynchronous reset.
CO308.3
Q5 Write a VHDL code for single/dual port RAM. CO308.3
Q6 Write a VHDL code to describe a 4 bit counter which counts only even
numbers .0,2, 4,...,14, 0,2, ...
CO308.3
Unit No IV Unit Title Introduction to Verilog
Planne
d Hrs.
05
Lesson schedule
Class
No.
Details to be covered
1 Basic Verilog naming conventions
2 Verilog operators, data types
3 Assignment statements, control statements
4 Behavioral modeling in Verilog HDL
5 Combinational logic design using Verilog.
Review Questions
Q1 Explain the different types of data types in Verilog CO308.2
Q2 Write a Verilog code for D flip flop with synchronous reset CO308.2
Q3 Write a Verilog code for single digit counter CO308.2
Q 4 Explain assignment and control statements in Verilog with suitable
examples.
CO308.2
Q 5 Explain the different types of operators in Verilog CO308.2
Q 6 Differentiate between VHDL and Verilog HDL CO308.2
Unit No V Unit Title MOS Transistor theory Planne
d Hrs.
05
Lesson schedule
Class
No.
Details to be covered
1 Physical structure of MOS transistor
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2 MOS transistor under static conditions
3 Introduction to CMOS inverter and its V-I characteristics.
4 Schematic and layout of simple gates
5 Schematic and layout of simple combinational circuits
Review Questions
Q1 Draw and explain physical structure of MOSFET CO308.4
Q2 Draw and explain CMOS inverter V-I Characteristics CO308.4
Q3 Draw the schematic and layout of 2 input NAND gate CO308.4
Unit No VI Unit Title PLD Architecture and Testing Planne
d Hrs.
07
Lesson schedule
1 Xilinx 9500 series CPLD (XC 9572)
2 Spartan 3E FPGA (XC3S500E)
3 Testing : Fault models
4 Path sensitizing, random test
5 Built-in self test , Boundary scan
Review Questions
Q1 Draw and explain briefly architectural block diagram of XC9500 CPLD. CO308.5
Q2 Neatly draw and explain functional block diagram of XC9500 macrocell. CO308.5
Q3 Draw and explain in detail the product term allocator in a macrocell
within Function Block of XC9500 series.
CO308.5
Q4 Draw and briefly write about the Fast CONNECT II switch matrix
in Xilinx XC9500 series.
CO308.5
Q5 Draw the neat circuit diagram for Input-Output block for Xilinx
make 9500 series CPLD. explain the working of each component used
CO308.5
Q6 Draw and explain in detail the basic block diagram of Spartan IIIE
family FPGA
CO308.5
Q7 With a neat diagram explain Boundary scan Test methodology CO308.6
Q8 Briefly write about Built-In-Self-Test used for testing digital ICs CO308.6
Q9 Briefly write about the scan path technique for testing sequential
digital systems CO308.6
Model Question Paper
Course Title : Transducers and Measurements Max.
Marks 100 Duration 3 hrs
Instructions: i) Figures to the right indicate full marks
ii) All questions are compulsory.
iii) Assume necessary data wherever necessary.
Q1 Attempt any three questions of the following. 18
A With neat diagram explain VLSI design flow. 6
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B With suitable examples of each class briefly write about various
classes of data types used in VHDL programming.
6
C What is meant by ‘package’ in VHDL? With the help of proper syntax
briefly write about package body and package declaration.
6
D What are the features and capabilities of VHDL? Explain briefly. 6
Q2 Attempt any two questions of the following. 16
A Describe ‘if-then else’ VHDL Statement with proper syntax. Write a
VHDL code for 4:1 multiplexer using ‘if-then else’ statement.
8
B Describe the functioning of ‘process’ statement with proper syntax.
Write a VHDL code for positive edge triggered ‘D’ Flip flop with
synchronous ‘Clear’ input.
8
C Write a VHDL code for full adder using three styles of modeling 8
Q3 Attempt any two questions of the following. 16
A Explain Different types of i) Delays in VHDL
ii) Wait statements in VHDL
8
B Draw a state diagram for a sequence detector ‘1011’ which is realized
as a melay machine. Write a VHDL code for the above said machine.
8
C Write a VHDL code for 4 bit synchronous counter with clear and
preset.
8
Q4 Attempt any two questions of the following. 16
A Explain Different types of operators in Verilog 8
B Write a Verilog code for ‘D’ Flip-flop with synchronous and
asynchronous reset
8
C With a neat diagram explain MOSFET structure and its characteristics 8
Q5 Attempt any two questions of the following. 16
A With a neat diagram explain Inverter and its V-I characteristics 8
B Draw and explain briefly architectural block diagram of XC9500
CPLD
8
C Write schematic and stick diagram for 2 input NAND gate 8
Q6 Attempt any three questions of the following 18
A Neatly draw and explain CLB structure of XC3S500E 6
B Neatly draw and explain functional block diagram of XC9500
macrocell.
6
C Briefly write about Built-In-Self-Test used for testing digital ICs 6
D Briefly explain about boundary scan architecture 6
List of experiments to meet the requirements of the syllabus
1. a) Half Adder & Full Adder using Dataflow
b) Full Adder using Structural
2. a)Decoder
b)Encoder
3. a)Multiplexer
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b) Demultiplexer
4. Comparator
5. Flip flops (D and JK)
6. Counter with Synchronous/ Asynchronous reset
7. Universal Shift Register
8. Sequence detector
9. Binary to Gray code converter (Verilog)
10. 4 bit counter (Verilog)
11. Counter and Seven Segment Display(Study Experiment)
12. LCD Interfacing(Study Experiment)
13. Mini Project
Assignment No. 1
Assignment
Title
Introduction to VLSI 308.1,308.2
Q1 Draw and write about VLSI design flow Or Draw VLSI system design flow
diagram and briefly explain each block.
Q2 Write briefly about different levels of abstraction. OR Briefly elaborate different
levels of abstraction in VLSI Design
Q3 Briefly write about various features and capabilities of VHDL language
Q4 Explain different elements of VHDL with syntax
Q5 Write the meaning of ‘Identifiers’ used in VHDL. With suitable examples write
about the various rules to look at before choosing any identifier.
Q6 Write briefly about operators in VHDL. or Which are the different types of
'operators’ that operate on signals, variables and constants in VHDL? Summarize
all types, and with suitable example elaborate ‘shift’ kind of operators. OR Which
are the different types of 'Operators' that operate on signals, variables and
constants in VHDL? Summarize all types, and with suitable examples elaborate’
Logical’ operators.
Q7 Explain with example Package in VHDL or Explain Package in VHDL or what is
meant by 'Package' in VHDL? With the help of proper syntax briefly write about
package body and package declaration
Q8 Explain the multi-valued logic in VHDL
Q9 Explain the syntax for physical literals. Write a physical type for current (nA, pA,
mA, A).
Q10 Explain with example the syntax of configuration statement
Q11 Write a short note on libraries in VHDL
Q12 Explain different data types in VHDL OR With suitable examples of each class,
briefly write about various classes of data types used in VHDL programming.
Explain the different types of attribute in VHDL with suitable example. OR What is
meant by an Attribute in VHDL? Explain briefly signal value and array type of
Attributes used in VHDL with suitable examples.
Assignment No. 2
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Assignment
Title
Combinational Logic design using VHDL 308.2
Q1 Write behavioral VHDL code for tristate buffer.
Q2 Write VHDL code to describe 4-bit Binary to Gray converter. OR Write a VHDL
code to describe 4 input binary to gray converter
Q3 Describe using VHDL code for 8-bit comparator. If A and B are 8-bit numbers.
comparator has three output A >B, A < B and A= B. use 4-bit comparator to
implement 8-bit comparator.
Q4 Write a VHDL code for full adder using three styles of modeling
Q5 Write a VHDL code for even parity generator having 8 input bits and 1 bit parity
output. OR Write VHDL code for even parity generator
Q6 Write a syntax and explain with example generate statement OR Write syntax of
For- Generate. Give suitable example
Q7 Design and describe using VHDL, 4 bit one hot decoder with ENABLE input and
VALID output. If ENABLE=0 then VALID= 1 otherwise VALID=0 and only
one of the 16 output is active.
Q8 Write a VHDL code to describe a 5-bit incrementer which increments the input
by one at the output using this full adder.
Q9 Write a VHDL code to describe a 4 input gray to binary converter
Q10 Write behavioral VHDL code for 3:8 decoder
Q11 Write VHDL code for 4:1 multiplexer using (i)case statement (ii)with-select
Q12 Write a VHDL code for N-bit parity generator using “generic”.
Q13 Write structural VHDL model for half adder
Q14 Declare Full Adder component as a package, and using the same package write
a VHDL code for 4 bit Ripple Adder
Q15 Describe 'lf-then-else' VHDL statement with proper syntax. Write a VHDL code
for 4: 1 multiplexer using 'lf-then-else’ statement.
Q16 Explain the functioning of ‘Case’ statement used in VHDL programming. Write a
VHDL code for 3:8 decoder using ‘case’ statement.
Q17 Using two half adder circuits draw the circuit for full adder. Write a VHDL code
for full adder using structural type of modeling.
Q18 Write a VHDL model for 8 tri-state buffers using 'generic' statement.(Note: use
common Enable for all tri-state buffers)
Q19 Write a VHDL model for HEX to Common Anode type seven-segment decoder
using 'with-select' statement.
Assignment No. 3
Assignment
Title
FSM Design Using VHDL 308.3
Q1 Write a VHDL code for D flip flop with synchronous reset using 'wait until'
statement.
Q2 Design a Mealy FSM to detect an overlapping sequence (i) “1011” (ii) 1101 and
describe using VHDL.
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Q3 Write a VHDL code for up counter with synchronous and with asynchronous reset.
Q4 Write a VHDL code to describe a 4 bit counter which counts only even numbers
.0,2, 4,...,14, 0,2, ...
Q5 Implement using ‘generate’ statement a 4 bit shift register use D F-F as a
component OR Write a VHDL code using generate statement for 4-bit serial in
serial out shift register using single D flip flop as a component.
Q6 Design a Moore FSM to design an overlapping sequence “1001” and describe using
VHDL
Q7 Write a VHDL code for (i) Synchronous reset D flip flop (ii) JK flip-flop (iii) D
flip-flop with asynchronous set and reset inputs. Draw entity diagram also.
Q8 Write a VHDL code for up down counter with control input up/down.
Q9 Describe the functioning of 'Process' statement with proper syntax. Write a VHDL
code for positive edge triggered 'D' flip-flop with synchronous ‘Clear’ input.
Q10 Convert following state table into its equivalent Moore model state diagram, and
write a VHDL model for the same state diagram.
Q11 a) Write a VHDL model for single port RAM
b) List and describe the i/o signals for dual port RAM and write a VHDL
Q12 Write VHDL code for 4 bit ripple counter using JK flip flop. Use structural
modeling for writing the same.
Q13 Draw a state diagram for a sequence detector’1011’ which is realized as a Mealy
machine. Write a VHDL code for the above said Mealy machine.
Q14 Design and describe using VHDL a Data path to implement operations A=A+B,
A=A-B, where A and B are 8 bit registers.
Q15 Explain the working of 4 input bus arbiter having fix priority with the help of
state diagram description for the same.
Q16 Design a two input 'N bit' serial adder and write a VHDL description for the
same.(hint: if A and B are the inputs then Sum=A+ B at every clock and cout
is a carry bit which is stored for further additions at reset the stored carry bit
is cleared).
Q17 Write a VHDL code for single digit counter using WAIT UNTIL statement.
Q18 Explain ‘process’ statement using different types of ‘wait’ statements. Write
example for each type. OR Which are the various formats of WAIT statement?
Explain each with suitable example.
Q19 Explain 'transport' and ‘inertial’ delay with suitable examples and respective timing
diagrams. OR Which are the different types of delays used in VHDL? Explain each
with suitable examples and respective timing diagrams OR Briefly explain the
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significance of delta, Inertial, and Transport delays used in VHDL Language. With
examples draw suitable timing diagrams also
Q20 Write a VHDL code for D flip-flop with asynchronous reset using WAIT ON
statement
Assignment No. 4
Assignment
Title
Introduction to Verilog 308.5
Q1 Explain the different types of data types in Verilog
Q2 Write a Verilog code for D flip flop with synchronous reset
Q3 Write a Verilog code for single digit counter
Q 4 Explain assignment and control statements in Verilog with suitable examples.
Q 5 Explain the different types of operators in Verilog
Q 6 Differentiate between VHDL and Verilog HDL
Assignment No. 5
Assignment
Title
MOS Transistor Theory 308.4
Q1 Draw and explain physical structure of MOSFET
Q2 Draw and explain CMOS inverter V-I Characteristics
Q3 Draw the schematic and layout of 2 input NAND gate, NOR gate
Assignment No. 6
Assignment
Title
PLD Architectures and Testing 308.6
Q1 Draw and explain briefly architectural block diagram of XC9500 CPLD.
Q2 Neatly draw and explain functional block diagram of XC9500 macrocell.
Q3 Draw and explain in detail the product term allocator in a macrocell within
Function Block of XC9500 series.
Q4 Draw and briefly write about the Fast CONNECT II switch matrix in Xilinx
XC9500 series.
Q5 Draw the neat circuit diagram for Input-Output block for Xilinx make 9500
series CPLD. explain the working of each component used
Q6 Draw and explain in detail the basic block diagram of Spartan IIIE family
FPGA
Q7 Using neat suitable block diagram elaborate Input /Output block of Spartan IIIE
FPGA.
Q8 Draw the neat circuit diagram for Configurable Logic Block (CLB) used in
Spartan IIIE series of Xilinx make FPGA. Explain functionality of each
component used inside.
Q9 Briefly write about s-a-1 (stuck at-1) and s-a-0 (stuck-at-0) model faults with
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suitable examples used while testing combinational logic
Q10 Explain briefly the concept of fault detection using path sensitization used in
combinational logic testing
Q11 Which are the different fault models used while testing combinational logic?
Explain each with suitable example.(Answer: Stuck at fault model and Path
sensitization)
Q12 Briefly write about the scan path technique for testing sequential digital systems
Q13 With the help of typical boundary scan cell diagram and basic boundary scan
architecture explain the concept of boundary scan testing. OR Explain briefly
boundary scan methodology used for testing circuit boards with many ICs.
Q14 Briefly write about Built-In-Self-Test used for testing digital ICs
Q15 Briefly explain the role of Multiple Input Signature Register (MISR) in BIST
Q16 With the help of suitable circuit sketch briefly elaborate role of LFSR in
component testing
Q17 Write a VHDL code for 4 bit modified LFSR which can also generate a
sequence 0000
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Course Title - Microprocessors & Microcontrollers
Course Microprocessors & Microcontrollers Course Code ETC309
Examination
Scheme
Theory Term Work POE Total
Max. Marks 100 25 -- 50 175
Contact
Hours/ week
4 2 6
Prepared by Ms.Pallavi Hatkar & Mrs. Sushmita
Sharma
Date 2/11/2015
Prerequisites This course requires student to know about the basic knowledge of digital
Electronics such as combinational circuits (multiplexer, demultiplexer, encoder,
decoder, adder, subtractor etc.) sequential circuits (flip flop, counter, timer, shift
registers etc.).This course requires the student to know about the basic concepts of
Computer based systems and their applications. Students also should have to know
basics about arithmetic, logical and control operations in digital electronics.
Course Outcomes : At the end of the course the students should be able to:
CO309.1 Illustrate Architecture of 8085 and write program of 8085 microprocessor
CO309.2 Interface 8255, 8279, 8155, DAC to 8085 with programing
CO309.3 Describe the internal architecture, pin-out, instruction set, addressing modes and associated circuits of 8051
CO309.4 Configure the peripherals in 8051 using SFRs for various applications.
CO309.5 Interface the external peripherals like ADC, DAC, LCD, keyboard, sensors etc. to 8051 .
CO309.6 Write program using Embedded C with simulators and down load the programs
in Hardware kit
Mapping of COs with POs
PO
CO a b c d e f g h i j k L
CO309.1 √
CO309.2 √ √
CO309.3 √ √ √ √
CO309.4 √
CO309.5 √ √
CO309.6 √ √ √
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Course contents
Chapter
No. Title
No. of
Hours
Section I
1 Introduction to 8085 Microprocessor:
CPU Architecture, Register Organization, 8085 Instruction Set,
Addressing modes. Stack & Subroutines, Instruction Cycle, Interrupts of
8085(Hardware and software)
09 Hours
2 Interfacing: Memory interfacing, I/O interfacing, Memory mapped I/O, I/O mapped I/O,Peripheral Interfacing – Programmable I/O-8255 Interface, ADC – 0809, DAC– 0808, Seven segment LED, 4 x 4 Matrix keyboard , stepper motor
09 Hours
3 Introduction toMCS51Family:
Architecture, Functional pin out diagram, Programming Model, Memory
Organization, Addressing Modes, Instruction Set: Classification, Reset
Circuit, Machine cycle, oscillator circuit, Introduction to Assembly
Language Programming.
09 Hours
Section II
4 Hardware overview: Input / Output Ports, Counters & Timers, Serial Communication,
Interrupt. Note: Structure of Above, Related S.F.R, Instruction,
Associated Programs.
09 Hours
5 Interfacing & Application
Interfacing: RAM ROM, LCD, ADC, DAC, Keyboard, stepper motor
Minimum System Design & Application: Interfacing of Temperature
Sensor (LM35) 8051 Connection to RS232
08 Hours
6 Embedded ‘C’ Programming for 8051:
Data types and time delay, I/O Programming, Logic operations,
Data conversions, accessing code ROM space, Data serialization.
08 Hours
Course Unitization
Section Unit Course No. of Questions in No. Title CAT-I CAT-II
I 1 Introduction to 8085 Microprocessor CO309.1 4
2 Interfacing CO309.2 4
3 Introduction to MCS 51 CO309.3 1
II 4 Hardware overview CO309.4 4
5 Interfacing & Application CO309.5 4
6 Embedded ‘C’ Programming for 8051 CO309.6 1
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Unit wise Lesson Plan Section I
Unit No 1 Unit Title Introduction to 8085 Microprocessor Planned 09
Hrs.
Unit Outcomes
At the end of this unit the students should be able to:
UO1 Understand the architecture of microprocessor 309.1
UO2 Understand internal memory organization 309.1
UO3 Use instructions to write assembly language programs 309.1
Lesson schedule
Class Details to be covered
No.
1 CPU Architecture, Register organization
2 8085 Instruction Set, Addressing modes.
3 8085 Instruction Set, Addressing modes.
4 8085 Instruction Set, Addressing modes.
5 Stack & Subroutines
6 Instruction Cycle
7 Instruction Cycle
8 Interrupts of 8085(Hardware and software)
9 Interrupts of 8085(Hardware and software)
Review Questions
Q1 Differentiate between software and hardware interrupts. 309.1
Q2 Draw the timing diagram of the instruction OUT 8 bit. 309.1
Q3
Draw and explain functional pin out and signals details for the
8085microprocessor. 309.1
Q4
Explain any two instructions in which 8085 processor uses the
registersW and Z. 309.1
Unit No 2 Unit Title Interfacing: Planned 09
Hrs.
Lesson schedule
Class Details to be covered
No.
1 Memory interfacing, I/O interfacing
2 Memory mapped I/O, I/O mapped I/O
3 Programmable I/O-8255 Interface
4 Programmable I/O-8255 Interface
5 ADC – 0809
6 DAC– 0808
7 Seven segment LED
8 4 x 4 Matrix keyboard
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9 stepper motor
Review Questions
Q1 Interface ROM of 4Kx8 using 2Kx4chip from starting address 2000H. 309.2
Q2 Explain successive Approximation ADC with neat diagram 309.2
Q3 Compare memory mapped l/O and peripheral mapped l/O. 309.2
Q4
What is the function of SIM and RIM instructions in 8085
microprocessor? 309.2
Q5
Explain BSR Mode & MODE 1 input or output with handshake of 8255 PPI.
309.2
Q6
Interface an 8 bit DAC with 8085 microprocessor using 8255 & ALP to
generate square wave of 1 KHz. Crystal frequency connected to 8085 is
6 MHz 309.2
Unit No 3 Unit Title Introduction to MCS 51 Planned 08
Hrs.
Lesson schedule
Class Details to be covered
No.
1 Overview of 8051, block diagram and pin-out
2 Memory Organization in 8051
3 Addressing modes and introduction to instruction set
4 Instruction set
5 Instruction set
6 Instruction set
7 Machine cycle, reset circuit and oscillator circuit
8 Programming model
9 Assembly language programs
Review Questions
Q1 Draw and explain memory organization of 8051 309.3
Q2 Explain different addressing modes with suitable examples 309.3
Q3 Explain bit oriented and logical instructions 309.3
Q4 Draw and explain oscillator and reset circuit of 8051 309.3
Unit No 4 Unit Title Hardware Overview Planned 09
Hrs.
Lesson schedule
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Class Details to be covered
No.
1 I/O ports and their internal structure
2 Timer/counter structure, modes of timer
3 SFR‟s required for configuring timers and related programs
4 Serial port in 8051
5 Modes of serial port
6 SFR‟s required for configuring serial port and related programs
7 Interrupt structure
8 SFR‟s required for configuring interrupts
9 Related programs
Review Questions
Q1 Draw and explain I/O port structure 309.4
Q2 Explain different modes of timer/counter 309.4
Q3 Explain SFR‟s related to timer/counter 309.4
Q4 Explain the modes of operation of serial port 309.4
Q5 Explain the interrupt structure and SFR‟s used for configuring interrupts 309.4
Unit No 5 Unit Title Interfacing & Application Planned 06
Hrs.
Lesson schedule
Class Details to be covered
No.
1 Interfacing of RAM and ROM to 8051
2 Interfacing of LCD and various commands of LCD
3 Interfacing of ADC and DAC to 8051
4 Interfacing of matrix keyboard to 8051
5 Interfacing of stepper motor to 8051
6
Development of minimum system to measure temperature using
LM 35
7 Its connection to RS 232 with application
8 Programs related to above peripherals
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Review Questions
Q1 With neat diagram interface 2kx8 bytes of RAM & 2kx8 bytes of ROM to 309.5
8051
Q2 Draw diagram to interface LCD to 8051 in 8 bit mode. 309.5
Q3 Interface ADC 0808 to 8051 and write steps for ADC conversion 309.5
Q4 Write a program to display “SGI, Atigre” on LCD display 309.5
Unit No 6 Unit Title Embedded “C” programming for 8051 Planned 08
Hrs.
Lesson schedule
Class Details to be covered
No.
1 Data types
2 Time delay
3 I/O programming
4 I/O programming
5 Logic operations
6 Data conversions
7 Accessing Code ROM space
8 Data Serialization
Review Questions
Q1 Explain why various 8051 C compilers produce different Hex file Sizes 309.6
Q2 Write an 8051 C program to toggle all bits of P1 every 200 ms. 309.6
Q3 Write a C program that finds the no.s of Zero in a 8 bit data stream
309.6
Q4
Write a program to convert the following series of ASCII no.s to packed BCD. Assume that ASCII data is located in data RAM “8767”
309.6
Q5 Why do we use the ROM code space for video game characters & shapes 309.6
Model Question Paper
Maximum Marks: 100
Section-I
Q1 Answer any four of the following
(a) Explain different addressing modes of 8085 with examples. 05
(b) Write an ALP to exchange contents of PSW and HL pair. 05
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(c) Explain following pins of 8085 Microprocessor.
i) S0
ii) S1
iii) SOD
iv) Reset
v) ALE
05
(d) With examples explain Stack operation. 05
(e) With timing diagrams explain memory opcode fetch. 05
(f) Write an ALP to add two 32 bit numbers. 05
Q2 Attempt any four of the following 16
(a) What is the function of /EA and /PSEN pin of MCS-51 04
(b) Explain bit addressable instructions of 8051 04
(d) Explain Program Status Word of 8051 04
(e) Explain Read-Modify-Write feature of 8051 04
(f) Explain Mode 0 of timer 0 04
OR
Write a Program for 8085 to find number of even and odd number from array of
10 numbers stored in memory from location C000.
08
Write ALP to continually transmit “HELLO” with baud rate 4800 to a terminal connected to serial port of 8051 (Crystal Freq. =
11.0592MHz)
Q3 Answer any four of following.
(a) Draw interfacing diagram to interface 4K x 8 ROM and 4K x 8 RA to MCS-51 08
(b) Write ALP for 8051 to arrange a series of numbers stored from 40H onwards 08
(c) 05
(d) Give the specifications of ADC 7109. 05
(e) Draw and explain control word and format of IC 8255. 05
(f) Explain the functions of following pins for corresponding IC
I) Timer In of 8155
II) ALE of 8155
III) A0 & A1 of 8255
IV) EOC pin of ADC 0808/09
05
Q5 (a) Draw and explainR2R Ladder and weighted code registers. 08
OR
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(b) How ADC 0809 can be interfaced to 8085? Write a program to convert 0 to 10V
input signal to binary value and store the result in D register. 08
(c) Explain different mode of IC 8155. 07
Q6 (a) Write a program to generate square wave of 1 KHz using
i) 8255
ii) 8155
07
(b) Write a C program that finds the no.s of Zero in a 8 bit data stream 08
OR
(c) Explain why various 8051 C compilers produce different Hex file Sizes 08
List of Experiments
1. Arithmetic & Logical operations using 8051 2. Data transfer & Exchange using 8051 3. Data conversions using 8051 4. Interface Stepper motor using 8051 5. Interface DAC using 8051 6. Timer & counter operation in 8051 using Embedded C 7. Interface LCD to 8051 using Embedded C Scheme of Marks
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Course Title – Optical Communication and Networks
Course Optical Communication & Networks Course Code ETC310
Examination
Scheme
Theory Term Work POE Total
Max. Marks 100 25 - 125
Contact
Hours/ week 4 2 6
Prepared by Mr. P. D. Patil& Mr. N. R Chougule Date 01/11/2015
Prerequisites This course requires that student must have the fundamental knowledge of wave
& particle theory of light, working of LED.
Course Outcomes
CO3010.1 Define the fundamental principles of optics and light wave to design opticalfiber
communicationsystems.
CO3010.2 Recognize structures, functions, materials, and working principle of optical fibers,
light sources,couplers & detectors
CO3010.3 Design optical fiber communication links using appropriate optical fibers, light
sources, couplers and detectors
CO3010.4 Apply the knowledge developed in-class to contemporary optical fiber
communicationresearch andindustrial area.
CO3010.5 Select proper optical detectors required in optical communication
CO3010.6 Illustrate different types of optical networks
Mapping of COs with POs
PO
CO a b c d e f g h i j k l
CO310.1 √
CO310.2 √
CO310.3 √
CO310.4 √
CO310.5 √
CO310.6 √
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Course Contents
Unit No. Title : Optical Communication & Networks No. of
Hours
Section I
1
Overview of Optical Fiber Communication
Motivation for light wave communication, Basic Network InformationRates,
The evolution of Optic System, Elements of Optical FiberTransmission
Link, ,optical spectral band, The nature of Light, BasicOptical Laws and
Definitions, Single Mode Fibers, Graded Index fiberstructures
08
2
Optical Fibers: Structures, Wave guiding and Fabrication
Optical Fiber Modes and Configurations, Mode theory for waveguides,Fiber
Materials, Fiber Fabrication, Fiber Optic cables. 08
3
Transmission characteristics of optical fibers.
Attenuation, material absorption losses, scattering losses, bendinglosses,
dispersion, polarization, nonlinear effects.
08
Section II
4
Optical Sources
Topics from Semiconductor Physics, Light-Emitting Diodes(LEDs),Laser
Diodes, Light Source Linearity, Modal, Partition andReflection Noise,
Reliability Considerations)
07
5
Optical Receiver
Physical Principal of Photodiodes, Photodetector Noise, DetectorsResponse
Time, Avalanche Multiplication Noise, Structure forInGaAs APDs,
Temperature effect of Avalanche Gain, Comparison ofPhoto detectors ,
Fundamental Receiver Operation, Digital ReceiverPerformance, Detailed
Performance Calculations
09
6
Optical Networks
Operational Principles of WDM, Passive Components, TunableSources,
Tunable Filters, Basic Networks, SONET/SDH, Broadcastand–Select WDM
Networks, Wavelength Routed Networks,Nonlinear Effects on Network
Performance, PerformanceOfWDM+EDFA Systems, optical CDMA.
08
Reference Books:
Sr.
No.
Title of Book Author Unit
No./Topics
1. Optical Communication John Senior 1,2,3,4,5,6
2. Optical Fiber Communication(Wiley)-3rd
edition
Agarwal 1,2,3,4,
Text Books:
Sr.
No.
Title of Book Author Publisher/Edit
ion
Unit No
/Topics
1. Optical Fiber
CommunicationFifth
Edition(TMH)
Gerd Keiser. TMH 1,2,3,4,5,6
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Scheme of Marks
Section Unit No. Title Marks
I
1 Overview of Optical Fiber Communication 16
2 Optical Fibers: Structures, Wave guiding and Fabrication 16
3 Transmission characteristics of optical fibers. 18
II
4 Optical Sources 16
5 Optical Receiver 16
6 Optical Networks 18
Course Unitization
Section
Unit Course
Outcomes No. of Questions in
No. Title CAT-I CAT-II
I
1. Overview of Optical Fiber Communication CO310.1 2
2. Optical Fibers: Structures, Wave guiding
and Fabrication CO310.2
2
3. Transmission characteristics of optical
fibers. CO310.3 2
II
4. Optical Sources CO310.4 2
5. Optical Receiver CO310.5 2
6. Optical Networks CO310.6 2
Unit wise Lesson Plan
Section I
Unit No 01 Unit Title Overview of Optical Fiber Communication Planned
Hrs. 06
Lesson schedule
Class
No. Details to be covered
1 Motivation for light wave communication. subject introduction, term work distribution
scheme
2 Study of optical spectral bands, introduction to network information rates.
3 Block diagram of optical communication link.
4 Introduction to optical networks. SONET &SDH, advantages & disadvantages of OCN
5 Study of basic optical laws, skew rays &meridional rays, light propagation by Total
internal reflection.
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6 Types of optical fibers & there classification on the basis of material, refractive index&
modes.
Review Questions
Q1 Explain with the help of neat diagram block diagram of optical
communication system.
CO310.1
Q2 List advantages & disadvantages of optical fiber communication. CO310.1
Q3 1. Write a short note on
a) Skew rays &meridional rays.
b) Acceptance angle & numerical aperture
c) Step index & graded index
d) Single mode & multimode optical fiber
e) Simulation & modelling tools
f) Mode field diameter
CO310.1
Q4 Classify optical fibers on the basis of refractive index. CO310.1
Q5 Classify optical fibers on the basis of modes. CO310.1
Unit No 02 Unit Title Optical Fibers: Structures, Wave guiding
and Fabrication
Planned
Hrs. 06
Lesson schedule
Class
No. Details to be covered
1 Mode theory of light through cylindrical waveguide, different patterns in cylindrical
waveguide.
2 Materials used for manufacturing of optical fiber, their effect of change in refractive index.
3 Optical fiber fabrication techniques- Outside vapor phase oxidation(OVPO),Vapor phase
axial deposition(VPAD)
4 Optical fiber fabrication techniques- Modified chemical vapor deposition(MCVD), Plasma
activated chemical vapor deposition(PACVD)
5 Methods for drawing fiber, double crucible method
6 Mechanical properties of optical fiber, Types of optical cables.
Review Questions
Q1 What are the materials that are used for changing the refractive index
profile of optical fiber? CO310.2
Q2 What are the different methods used for manufacturing of optical fiber?
With the help of neat diagram explain any one of them? CO310.2
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Q3 With the help of neat diagram explain MCVD in detail? CO310.2
Q4 With the help of neat diagram explain the double crucible method for
drawing optical fiber? CO310.2
Q5 With the help of neat diagrams explain different types of optical cables. CO310.2
Unit No 03 Unit Title Transmission characteristics of optical
fibers
Planned
Hrs. 06
Lesson schedule
Class
No.
Details to be covered
1 Signal attenuation in optical fiber,types of losses in optical fibers, absorption losses
2 Types of scattering losses- linear & non-linear scattering losses.
3
Bending losses, Dispersion mechanism in optical fibers during transmission, types of
dispersion,
4 Chromatic dispersion:- Material dispersion & waveguide dispersion
5 Intermodal dispersion in single mode & multimode step index & graded index fibers,
6 Polarization mode dispersion, review of the unit
Review Questions
Q1 Explain different types of losses in optical transmission link? CO310.3
Q2 Explain the effect of pulse broadening effect in optical fiber? CO310.3
Q3 What are different types of scattering losses in optical fiber? Explain each
in details?
CO310.3
Q4 Write a short note bending losses in optical fiber? CO310.3
Q5 What do you mean by signal attenuation in optical fiber? Explain
absorption loss in optical fiber
CO310.3
Q6 With the help of neat diagram explain intermodal dispersion in step index
& graded index fiber?
Section II
Unit No 04 Unit Title Optical Sources Planned
Hrs. 07
Lesson schedule
Class
No.
Details to be covered
1 Introduction tosemiconductor light sources, absorption, stimulated & spontaneous
emission, hetero junction & homo-junction structures.
2 Construction & working of double heterojunction LED, different structures of LED’s.
3 Important parameters of LED, internal & external quantum efficiency, recombination
lifetime of charges.
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4 Construction & working LASER diode, types of LASER diodes, distributed feedback
LASER
5 LASER diode structures & radiation, current & optical confinement techniques
6 Modal, partition & reflection noise in LASER diode.
7 Necessity of light source linearity, temperature effect on optical sources,
Review Questions
Q1 What are the essential requirements for good Optical sources? CO310.4
Q2 With the help of energy band diagram & refractive index profile explain
the construction & working of double hetero junction LED? CO310.4
Q3 Compare LED & LASER CO310.4
Q4 Discuss LASER diode structures & radiation patterns
Q5 Explain in detail structure, energy band diagram & refractive index profile
for hetero junction injection LASER.
Q6 Explain temperature effect on light sources, light source linearity &
reliability?
Unit No 05 Unit Title Optical Receiver Planned
Hrs. 06
Lesson schedule
Class
No.
Details to be covered
1 Principle of operation of photo diodes, its types& parameters.
2 Construction & working of PN & PIN photo diode.
3 Types of error sources in optical receiver, external & internal noise
4 Inter symbol interference, noise due to receiver amplifiers
5 Structure forInGaAs APDs, Temperature effect of Avalanche Gain,Comparison ofPhoto
detectors
6 Introduction to Analog receiver, expression for probability of error BER
Review Questions
Q1 Explain in details structure of InGaAs APD’s? CO310.5
Q2 Compare different photo detectors? CO310.5
Q3 With schematic diagram explain in detail receiver configuration? CO310.5
Q4 Explain optical detection principle of the photodiode & reach through
avalanche APD. CO310.5
Q5 Draw & explain structure for InGaAs APD’s. What is effect of
temperature on avalanche gain? CO310.5
Unit No 06 Unit Title Optical Networks Planned
Hrs. 05
Unit Outcomes:
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Lesson schedule
Class No. Details to be covered
1 Introduction to WDM & its operating principle.
2 Types of passive components:- 2x2 coupler. Machzender interferometer, star coupler
etc.
3 Introduction to fiber Bragg gratings, Introduction to active optical components MEMS,
tunable optical filters etc.
4 Basic WDM networks SONET& SDH, Wavelength Routed Networks
5 Nonlinear Effects on Network Performance, PerformanceofWDM+EDFA Systems,
introduction to optical CDMA.
Review Questions
Q1 What are Wavelength Routed Networks? Explain in detail Solitons, Write
a note on'Performance of WDM + EDFA Systems
CO310.6
Q2 Explain in detailwith operationalprinciple WDM. CO310.6
Q3
Write short note on
a) Tunable optical filters.
b) Ultra high capacity optical network
c) Optical CDMA
CO310.6
Q4 Explain in detail transmission format & speed in SONET: CO310.6
Q5 Explain in details passive components used in optical communication
system
CO310.6
Q6 Explain in details different network topologies, performance of linear
buses & power budget?
Model Question Paper
Course Title : OpticalCommunication& Networks
Duration:3hours Max.
Marks:100
Instructions:
1. Figures to right indicate full marks.
2. Draw neat sketch wherever necessary.
3. Assume additional data if required and state it clearly.
Section-I
Marks
1 a Explain in detail Elements of Optical Fiber Transmission Link. 09
b Write a note on 'Graded lndex Fiber Structures'. 08
2 a Explain the process of fabrication of Optical Fiber. 08
b Explain in detail different Optical Fiber Modes and Configurations. 08
3 a Write a note on’ Signal Distortion in Optical Waveguide’s. 08
b Explain the effect of Pulse Broadening in Graded-index Waveguide. 08
4 a Explain in detail with internalstructure Light-Emitting Diodes (LEDs). 08
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b Write a note on 'Partition and reflection Noise’ related to laser Diodes. 08
Section-II
Marks
5 a Explain with internal structure lnGaAs APDs. 09
b Compare different Photo-detectors. 09
6 a Explain in detail Fundamental Receiver Operation. 08
b Explain various parameters used for performance calculation of Optical
Receiver.
08
7 a Explain in detail with operational principle WDM? 08
b Write a note on Tunable filters? 08
8 a What are Wavelength Routed Networks? Explain in detail Solutions, I 08
b Write a note on Performance of WDM + EDFA Systems 08
Assignments
List of experiments/assignments to meet the requirements of the syllabus
Assignment No. 1
Assignment Title CO310.1
Batch I 1. What are the different techniques to improve the network information
rates?
2. Write a short note on:-
a) Simulation & modeling tools
b) Glass fiber
c) Acceptance angle
d) Numerical aperture
e) Critical angle
Batch II 1. Classify optical fibers on the basis of modes?
2. Explain different fiber materials and axial vapor phase deposition
technique of fiber fabrication?
Batch III 1. Explain the modified chemical vapor deposition technique (MCVD) &
how the fiber is drawn?
2. State different types of optical cables?
3. Explain mechanical properties of fibers? Find expression for failure
probability?
Batch IV 1. Explain the evolution of Fiber optics system.
2. Explain the need for optical fiber communication system.
3. Explain light transmission mechanisms through opticalfibers and
different types of optical fibers with necessary diagrams’.
Assignment No. 2
Assignment Title CO310.2
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Batch I Explain the basic optical law and definitions
Explain the Fiber modes i.e. Step-Index fiber and Graded index fiber.
Explain the mode theory for circular Waveguides.
Batch II Explain the wave guide equations for Step Index fiber.
Explain the fiber optic cables.
Batch III Explain the single mode fiber with its advantages.
Explain the multimode fibers with its application.
Explain the Graded Index fibers,
Batch IV Explain the Fiber Materials.
Explain the fiber Fabrication
Explain the mechanical properties of fibers.
List of additional assignments /experiments
Assignment No. 3
Assignment Title CO310.3
Batch I Explain with internalstructure lnGaAs APDs.
Compare different Photo-detectors.
Batch II Explain in detail Fundamental Receiver Operation.
Explain various parameters used for performance calculation of
OpticalReceivers
Batch III Explain in detailwith operationalprinciple WDM.
Write a note on 'Tunable filters
Batch IV What are Wavelength Routed Networks? Explain in detail Solitons, Write
a note on'Performance of WDM + EDFA Systems
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Course Title - Industrial Management and Operation Research
Course Industrial Management and Operation
Research Course Code ETC311
Examination
Scheme
Theory Term Work POE Total
Max. Marks 100 25 -- 125
Contact
Hours/ week
4 -- 4
Prepared by Ms.Katre Apurva, Tamboli Zareen. Date 3/11/2015
Prerequisites
Industrial management and operations research are closely related fields that deal with
the design, analysis, and control of complex systems that include people, machines,
material, and information, and the interactions of such systems with their environment.
Course Outcomes: At the end of the course the students should be able to:
CO311.1 Demonstrate the use of management techniques, skills for engineering practice.
CO311.2 Interprete multidisciplinary problems in an orgnization
CO311.3 Demonstrate professional and ethical responsibility
CO311.4 Describe conceptual and analytical processes in an organization.
CO311.5 Explore managerial skills and team work towards the growth of organization
CO311.6 Illustrate the entrepreneur skills and opportunities available from the Govt. for SSI and
MSI
Mapping of COs with POs
PO CO
a B c d e f g h i j k l
CO311.1 √ √
CO311.2 √ √
CO311.3 √ √ √
CO311.4 √ √ √ √
CO311.5 √ √
CO311.6 √ √
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Course Contents
Unit No. Title No. of
Hours
Section I
1. Function of management 06
2. Marketing 06
3. Costing 06
Section II
4. Operation research and LPP 06
5. Assignment and Transportation Models 06
6. PERT and CPM 06
Reference Books/Text Books:
Sr.
No.
Title of Book Author Publisher/Edition Topics
1. Management for Businesses and
Industry. C.S. George . .
2. Industrial Organization. Bethel Atwater,
Smithy, Stackman
and Riggs
3. Essential of Management. Koontz , Odonell
4. Industrial Organization and
management. O.P. Khanna
5. Industrial management Tata M cGraw Hill
6. Qualitative Techniques L.C.Jhamb sharma
and Banga
7. Operation Research W.L. Winston Cengage Learning
8. Problems in OR Hira and Gupta
9. Introduction to Operation Research Gillet Tata Mc graw Hill
Scheme of Marks
Section Unit No. Title Marks
with
options
I 1. Function of management 18
2. Marketing 16
3. Costing 16
II 4. Operation research and LPP 16
5. Assignment and Transportation Models 16
6. PERT and CPM 18
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Course Unitization
Section
Unit Course
Outcomes
No. of Questions in
No. Title CAT-I CAT-II
I
1. Function of management 311.1 02
2. Marketing 311.2 02
3. Costing 311.3 02
II
4. Operation research and LPP 311.4 02
5. Assignment and Transportation
Models 311.5
02
6. PERT and CPM 311.6 02
Unit wise Lesson Plan
Section I
Unit No 01 Unit Title Function of Management Planned
Hrs.
06
Lesson schedule
Class
No.
Details to be covered
1 Planning Nature, Types, Improvement, Forecasting methods and importance, Organization
Importance and Principles.
2 Staffing Procedure of staffing, performance, appraisal methods
3 Directing Leadership styles, Motivation Theeries-Maslows, Herzbergs, Mc Greqors
4 Comparative study of other configurations of differential amplifiers.
5 Communication Process types, Barriers and Remedies
6 Controlling- process
Review Questions
Q1 What can be done to make organizational planning more effective and efficient and
give one of the practical examples of the industry?
CO311.1
Q2 Explain in brief the functions of management? CO311.1
Q3 Discuss Herzberg’s theory of motivation. how can understanding of this theory
help managers more effectively to motivate subordinate?
CO311.1
Q4 “A leader is a follower”. Do you agree with this statement? What are the major
characteristics of a leader and a follower?
CO311.1
Q5 What is controlling? Discuss steps in controlling procedure. CO311.1
Q6 Describe why forecasting is important for industries. CO311.1
Q7 What are the theories of motivation? Describe any one. CO311.1
Unit No 02 Unit Title Marketing. Planned 06
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Hrs.
Lesson schedule
Class
No.
Details to be covered
1 Marketing and selling concept,
2 marketing mix, Advertising- needs, types, advantages and limitations.
3 Material Management - Purchase and its importance,
4 Policies and procedure, Five Rs of purchasing.
5 Inventory Control - Inventory costs, EOG analysis,
6 ABC analysis
Review Questions
Q1 Describe fully market research procedure CO311.2
Q2 What is marketing strategy? Explain the importance of 4p,s in marketing mix. CO311.2
Q3 What is marketing strategy? What are the product related decisions while
deciding marketing strategy?
CO311.2
Q4 Define and discuss the concept of integrated materials management. Also state
major functions of material management CO311.2
Unit No 03 Unit Title Costing Planned
Hrs.
06
Lesson schedule
Class
No.
Details to be covered
1 Elements of cost, cost estimation procedure,
2 Entrepreneurship- importance, Qualities, function of entrepreneur
3 small scale industries procedure of starting SSI unit, Difference Schemes for SSI.
4 Forms of Business Organization Single, partnership, Joint stock, co-operative and state and
central Govt.
5 Social responsibilities and business ethics- introduction
Review Questions
Q1 What are the different type of purchasing policies? Under what condition is each
appropriate? How does it improve the efficiency of organization?
CO311.3
Q2 Explain
1.Procedure to start small scale industry
2.Management information system.
CO311.3
Q3 “ Risk taking ability becomes an important personality trait to become
successful entrepreneur”. Comment CO311.3
Q4 Define operation research and explain application of O.R.
CO311.3
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Section II
Unit No 04 Unit Title Planned
Hrs.
08
Lesson schedule
Class
No.
Details to be covered
1 Introduction to Industrial management and operation Research.
2 Operations Research Definition, methodology, Scope and limitations.
3 Linear programming Concept, Formulation of LPP.
4 Examples on LPP
5 Graphical Method
6 Numerical on graphical method.
7 Simple method
8,9 numerical on Simplex method
Review Questions
Q1 Explain the following w.r.t.LPP
i. Initial or starting solution
ii. Concept of duality
Entering and leaving variables
311.4
Q2 Solve the following LPP using graphical method Maximize Z=50x1+30x2
subjected to
2x1+x2 >= 18
X1 + x2 >=12
3x1 + 2x2 <=34
X1 ,x2 >_=0
311.4
Unit No 05 Unit Title Planned
Hrs.
06
Lesson schedule
Class
No.
Details to be covered
1 Assignment Problems Introduction Balanced, Unbalanced assignment.
2 Prohibitive type of assignments, Hungarian methods.
3 Transportation Problems For finding basic feasible solution by Northwest corner method.
4,5 Least cost method
6,7 Vogels approximation method
Unit No 06 Unit Title PERT AND CPM Planned
Hrs.
06
Unit Outcomes
At the end of this unit the students should be able to:
UO1 Explain project management programmed evaluation and review technique CO311.6
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UO2 Explain CPERTI critical path method. CO311.6
UO3 Explain the network analysis, identifying critical path. CO311.6
UO4 Explain the probability of completing the project within the given time. CO311.6
Lesson schedule
Class
No.
Details to be covered
1 Project Management Programmed Evaluation and review technique (PERT).
2 Critical Path Method (CPM).
3 Network analysis
4 Examples for Identifying critical path
5 Probability of completing the project within given time.
Model Question Paper
Course Title : INDUSTRIAL MANAGEMENT AND ORGANIZATION
RESEARCH
Duration Instructions: 1) Attempt all questions. Max.
Marks
03 Hours 2) Figures to the right indicates full marks. 100Marks
3) Assume suitable data if necessary.
Section-I
1 20
a What is marketing? What are the characteristics of Marketing? 12
b Explain marketing and Selling concept. 04
c What is Marketing mix explain briefly.
04
2 Solve any two 15
a What is inventory control Explain in detail. 07
b Define operation research and explain application of O.R. 08
3
Solve any two
15
a What are the importance of planning explain briefly. 08
b Write a note on following i) Maslows motivation theory
ii) Herzberg’s motivational theory
iii) Mc Groger thory.
07
Section-II
1 20
a Define operation research and briefly explain the methodology of OR
? 07
b Solve using graphical method maximize z =2 +
Subject to + <=10; + <=6; - <=2; - <=1;
, >=0
07
c maximize z=3 + + +5
Subject to 8 + + +2 <=10; 2 + + +4 <=5;
+ + + <=6; , >=0; Solve using simplex method.
06
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2 15
a Four sales man are to be assigned to four districts, estimate of sales
revenue in thousands of rupees for each sales man are give below.
Districts
Sales man A B C D
1 32 35 40 28
2 40 25 30 22
3 42 27 34 30
4 25 39 41 35
Assign the sales man in different districts and find the profit.
05
b Find out the initial basic solution to the following transportation
problem using north west corner method.
D1 D2 D
3
D4 D5 SUPPLY
S1 3 4 6 8 9 20
S2 2 10 1 5 8 30
S3 7 11 20 40 3 15
S4 2 1 9 14 16 13
DEMAN
D
40 6 8 18 6
04
C Find out the initial basic solution to the following transportation
problem using Vogel’s method.
D
1
D2 D
3
D
4
SU
PPL
Y
S1 19 30 5
0
1
0
7
S2 70 30 4
0
6
0
9
S3 40 8 7
0
2
0
18
DEMAND 5 8 7 1
05
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4
3
15
a
Consider the problem of assigning five operators to five machines.
The assignment costs are given below.
Operator/machines I II III IV V
A 10 5 13 15 16
B 3 9 18 3 6
C 10 7 2 2 2
D 5 11 9 7 12
E 7 9 10 4 12
05
b Four different jobs are to be done on four different machines. The
given table indicates the cost of producing job I on machine j in
rupees. Assing jobs to different machines so that the total cost is
minimized.
Machines/jobs I II III IV
1 5 7 11 6
2 8 5 9 6
3 4 7 10 7
4 10 4 8 3
05
C Explain the significance of PERT and CPM 05
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Course Title – Electronics System Design
Course Electronics System Design Course Code ETC307
Examination
Scheme
Theory Term Work POE Total
Max. Marks -- 25 50 75
Contact
Hours/ week
2 2 -- 4
Prepared by Mr.M.P.Takale, Mr. A.A.Hargapure Date 2/11/2015
Prerequisites This course requires students to know what is an op-amp, basic circuits using
op-amp, basic digital circuits and identifying blocks required for designing a particular system
Course Outcomes : At the end of the course the students should be able to:
CO312.1 Design a digital measurement system using conventional components and discrete IC’s.
CO312.2 Design modulation and demodulation circuit using phase locked loop.
CO312.3 Design the basic circuits for audio and video signal amplification
CO312.4 Design event counting, pulse generation and delay generation using the timer.
CO312.5 Design an instrumentation system for measuring various physical quantities and control
the process variable using analog controllers like ON-OFF, Proportional and PID
controllers
CO312.6 Design a Switched Mode Power Supply (SMPS) in different configurations such as
step-up, step-down and invert.
CO312.7 Demonstrate use of microcontrollers for process automation.
Mapping of COs with POs
PO
CO a b c d e f g h i j k l
CO312.1 √ √
CO312.2 √ √ √ √
CO312.3 √
CO312.4 √ √ √
CO312.5 √ √ √
CO312.6 √ √ √ √ √
CO312.7 √ √ √
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Course Contents
Unit No. Title No. of
Hours
I DIGITAL VOLTMETER:
Design of 4-digit numeric display circuit, Design of 3½ digit DVM,
Study of IC7107/7106.
03
II PHASE LOCKED LOOP:
Design of digital phase locked loops (cd4046&565), its use in frequency
synthesizer, frequency& phase demodulation, Amplitude modulation.
03
III
AUDIO &VIDEO AMPLIFIERS: Audio amplifier: audio op-amp applications mike pre-amplifier with tone control, study of LM 386 Video amplifier: Theory, voltage gain,NE592,filter applications
06
IV
TIMERS:
Fundamentals of IC timers, timer & 2240 Binary Programmable
Timer/counter, use of timers for event or interval timing, design of
frequency counter using IC 74C926 for the time &event Counting.
06
V
Sensor Signal Conditioning:
For sensors to get output in standard range
1)Temperature–RTD, Thermocouple, Semiconductor LM35,AD549
and1N4148
2)Strain gauge type transducers of 350ohm/120ohm bridge
configuration
3)V to I and I to V converters for std input and output Standard input
output ranges–
0to2V(DVM),0to5V(Microcontroller),4 to20mA(Industrial)
4) Optical encoder process controllers using above transducers ON/OFF
proportional PID controller. Algorithm implementation only for any 8-
bit Microcontroller based process controllers
06
VI
SWITCHED MODE POWER SUPPLY:
Introduction to SMPS, IC LM3524, Design of SMPS using LM3521,
Step up, Step down, Invert mode.
02
VII Micro Controller Based Design: Design of process controllers ON-OFF ,Proportional,PID
02
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Reference Books:
Sr. No. Title of Book Author Publisher/Edition Topics
1. Industrial Control Electronics Michel Jacob Prentice Hall 5
2. Intersil Data Manual - Intersil 1,4
3. Linear Integrated Circuits Ramakant Gaikwad Pearson 2
4. Linear Data Manual - National Semiconductors 3,6
Unit No. Title Course Outcomes
1 Digital Voltmeter CO312.1
2 Phase Locked Loop CO312.2
3 Audio & Video Amplifiers CO312.3
4 Timers CO 312.4
5 Sensor Signal Conditioning CO 312.5
6 Switched Mode Power Supply CO312.6
7 Micro Controller Based Design CO312.7
Unit
No
1. Unit Title Digital Voltmeter Planned
Hrs.
3
Lesson schedule
Class
No.
Details to be covered
1. Design of 4-digit numeric display circuit
2. Design of 3½ digit DVM
3. Study of IC7107/7106.
Review Questions
Q1 List the components required for counting circuit. CO312.1
Q2 Explain the working principle of Digital Voltmeter. CO312.1
Q3 Explain various blocks of digital voltmeter CO312.1
Q4 Explain astable and monostable multivibrator with circuit diagram CO312.1
Q5 Explain seven segment display types and the driver IC‟s required for each type
CO312.1
Q6 Draw and explain auto polarity indicator and corrector circuit and attenuator circuit.
CO312.1
Q7 Explain different phases of operation of IC 7107 CO312.1
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Unit
No
2 Unit Title Phase Locked Loop Planned
Hrs.
03
Lesson schedule
Class
No.
Details to be covered
1 Design of digital PLL using NE565 and CD4046.
2 Blocks of frequency synthesizer and its design.
3 Application of PLL for modulation and demodulation of signals.
Review Questions
Q1 What is a Phase Locked Loop? Explain its working principle. CO312.2
Q2 Draw the pin-out of Ne565 and CD4046 and explain functioning of each pin.
CO312.2
Q3 What is frequency synthesizer? Explain blocks of frequency synthesizer. CO312.2
Q4 Explain use of PLL in modulation and demodulation of signals. CO312.2
Unit
No
3 Unit Title Audio & video amplifier Planned
Hrs.
06
Lesson schedule
Class
No.
Details to be covered
1 Basics of audio amplification, audio amplifier blocks and additional circuits.
2 Study of audio amplifier IC LM 386.
3 Mike pre amplifier.
4 Basics of video amplification and related circuits.
5 Study of video amplifier IC NE592.
6 Filter applications.
Review Questions
Q1 What is an audio amplifier? Explain the circuit related to it. CO312.3
Q2 Draw the pin-out of IC LM 386 and explain use of each pin. CO312.3
Q3 What is video amplifier? Explain various circuits related to it. CO312.3
Q4 Draw the pin-out of IC NE 592 and explain use of each pin CO312.3
Q5 CO312.3
Unit
No
4 Unit Title Timers Planned
Hrs.
06
Lesson schedule
Class
No.
Details to be covered
1 Fundamentals of IC timers and CMOS timers.
2 Study of IC 2240 binary programmable timer.
3 use of timers for event or interval timing
4 design of frequency counter
5 Study of IC 74C926. design of frequency counter using IC 74C926 for the time counting
6 Design of frequency measurement circuit using IC 74C926.
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Review Questions
Q1 What is a timer? What are its applications CO312.4
Q2 Explain principle used in frequency measurement. CO312.4
Q3 Explain the principle of time period measurement. CO312.4
Q4 Explain the use of each pin of IC 74C926. What are its advantages? CO312.4
Q5 Explain use of binary programmable counter IC 2240. CO312.4
Unit
No
5 Unit Title Signal conditioning Planned
Hrs.
06
1 Study of different temperature and pressure measurement sensors.
2 Signal conditioning circuit for converting voltage to frequency and voltage to time.
3 Designing of V to I and I to V converters for standard voltage and current ranges.
4 Use of optical encoders.
5 Design of ON-OFF controller.
6 Design of Proportional controller.
Design of PID controller. Review Questions
Q1 Write different types of temperature sensors along with their
specifications.
CO312.5
Q2 Draw and explain instrumentation amplifier. CO312.5
Q3 Explain V to I and I to V converter using op-amp. CO312.5
Q4 Explain working of ON-OFF controller. CO312.5
Q5 Explain working of Proportional controller. CO312.5
Q6 Compare ON-OFF, Proportional and PID controller CO312.5
Unit
No
6 Unit Title Switched Mode Power Supply Planned
Hrs.
02
1 Introduction to SMPS IC 3524
2 Design of SMPS using LM3521 Step-up Step Down, Invert Mode Review Questions
Q1 Write the advantages and disadvantages of regulated power supplies. CO312.6
Q2 Explain the working principle and different blocks of SMPS. CO312.6
Q3 Write the advantages and disadvantages of SMPS. CO312.6
Q4 Write the use of each pin of SMPS IC LM 3524. CO312.6
Q5 Write design steps for designing SMPS in different modes like step-up, step-down and invert
CO312.6
Unit
No
7 Unit Title Microcontroller based design Planned
Hrs.
02
1 Design of process controllers
2 ON-OFF, PID controllers
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Review Questions
Q1 Draw the interfacing diagram of 8051 with ADC 0808. CO312.7
Q2 Draw the interfacing diagram of 8051 with DAC 0808. CO312.7
Q3 Write the algorithm for designing process controllers using
microcontroller.
CO312.7
Q4 Explain standard buses for interfacing of 8051 microcontroller. CO312.7
Assignments
List of assignments to meet the requirements of the syllabus
Assignment No. 1
Assignment
Title
Digital Voltmeter CO
Q1 List the components required for counting circuit. CO312.1
Q2 Explain the working principle of Digital Voltmeter. CO312.1
Q3 Explain various blocks of digital voltmeter. CO312.1
Q4 Explain astable and monostable multivibrator with circuit diagram. CO312.1
Q5 Explain seven segment display types and the driver IC‟s required
for each type.
CO312.1
Q6
Draw and explain auto polarity indicator and corrector circuit and
attenuator circuit.
CO312.1
Q7 Explain different phases of operation of IC7107 CO312.1
Assignment No. 2
Assignment
Title
Phase Locked Loop CO
Q1 What is a Phase Locked Loop? Explain its working principle CO312.2
Q2 Draw the pin-out of Ne565 and CD4046 and explain functioning of
each pin
CO312.2
Q3 What is frequency synthesizer? Explain blocks of frequency
synthesizer.
CO312.2
Q4 2. Explain use of PLL in modulation and demodulation of signals CO312.2
Q5 3. Explain working principle of DTMF. CO312.2
Assignment No. 3
Assignment
Title
Audio & video amplifier CO
Q1 What is an audio amplifier? Explain the circuit related to it. CO312.3
Q2 Draw the pin-out of IC LM 386 and explain use of each pin. CO312.3
Q3 What is video amplifier? Explain various circuits related to it. CO312.3
Q4 Draw the pin-out of IC NE 592 and explain use of each pin CO312.3
Assignment No. 4
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Assignment
Title Timers CO
Q1 What is a timer? What are its applications? CO312.4
Q2 Explain principle used in frequency measurement. CO312.4
Q3 Explain the principle of time period measurement. CO312.4
Q4 Explain the use of each pin of IC 74C926. What are its advantages? CO312.4
Q5 Explain use of binary programmable counter IC 2240. CO312.4
Assignment No. 5
Assignment
Title
Signal conditioning CO
Q1 Write different types of temperature sensors along with their specifications.
CO312.5
Q2 Draw and explain instrumentation amplifier. CO312.5
Q3 Explain V to I and I to V converter using op-amp.
CO312.5
Q4 Explain working of ON-OFF controller.
CO312.5
Q5 Explain working of Proportional controller.
CO312.5
Q6 Compare ON-OFF, Proportional and PID controller
CO312.5
Assignment No. 6
Assignment
Title
Switched Mode Power Supply CO
Q1 Write the advantages and disadvantages of regulated power supplies.
CO312.6
Q2 Explain the working principle and different blocks of SMPS.
CO312.6
Q3 Write the advantages and disadvantages of SMPS.
CO312.6
Q4 Write the use of each pin of SMPS IC LM 3524.
CO312.6
Q5 Write design steps for designing SMPS in different modes like step-
up, step-down and invert.
CO312.6
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List of experiments
List of experiments to meet the requirements of the syllabus
Experiment No. Experiment title CO
1. Design of 3½ digit DVM using TTL Ics. 312.1
2. Study of 7107/7106. 312.1
3. Design of frequency synthesizer using 565PLL. 312.2
4. Design of frequency synthesizer using CD4046PLL. 312.2
5. Frequency measurement using 74C926 312.4
6. Interval measurement using74c926. 312.4
7. Study of proportional controller 312.5
8. Study of microcontroller based controller. 312.7
9. Study of LM3524 SMPS 312.6
10. Study of audio & video amplifiers 312.3
11. Study of PID Controller 312.5
12 Study & I to V & V to I converters. 312.5
13
Mini project should be based on above
chapters.(compulsory)