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DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
1 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
PROGRAMME TITLE: Diploma in Electronics & Telecom. Engineering
SEMESTER : Six
Course
Code Course Title
Pre
requis
ite Credits Examination Scheme
L P
To
tal
Theory
PR OR TW Total T
H
T
S
ET
11611 MOBILE
COMMUNICATION
4 - 4 80 20 - - - 100
1) Theory paper duration 3 hrs.
2) Theory paper assessment is Internal and External.
RATIONALE:
The glorious 21st century marks the growth of the mobile radio communication industry by orders of
magnitude. The recent exponential growth in cellular mobile communication needs more skilled
technicians for operation, maintenance and servicing of mobile cellular systems. This subject is classified
under Applied Technology group and it is based on communication theory, which gives theoretical as
well as practical knowledge of different cellular system. It covers digital cellular mobile systems such as
GSM, IS – 95 standards, WLL, call processing & basics of mobile communication systems.
SECTION 1
Sr.
No. Name of the Topic Periods Marks
01
1. Introduction to wireless communication
system 1.1 Evolution of mobile radio communication
1.2 Mobile radio system around the world. (Such as
AMPS, N- AMPS, IS-95, GSM)
1.3 Related definition base station, control channel,
forward channel etc.
Examples of wireless communication system such
as paging system, cordless telephone system,
cellular telephone system , how cellular telephone
call is made
07
08
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
2 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
02
Mobile unit
2.1 Block Diagram and operation of mobile unit
2.2 Block Diagram & Explanation of frequency
synthesizer
2.3 Block diagram and operation of transmitter,
receiver, logic unit, control unit & handset
09
12
03
The cellular concept.
3.1 Introduction a basic cellular system.
3.2 Frequency reuse
3.3 Hand off, Type of hand off, hard hand off, soft hand
off , delayed and queued hand off
3.4 Interference & system capacity.
3.4.1 Co channel interference & system capacity.
3.4.2 Channel planning for wireless system.
3.4.3 Adjacent channel Interference.
3.4.4 Power control for reducing interference
(Closed loop, Open loop)
3.5 Improving coverage and capacity in cellular system.
3.5.1 Cell splitting.
3.5.2 Sectoring.
3.5.3 Repeater for range extension.
3.5.4 Micro cell zone concept.
16
20
SECTION 2
04
Digital cellular mobile systems.
4.1 G.S.M system architecture.
4.1.1 G.S.M services & features. Frequency Spectrum.
4.1.2 G.S.M radio subsystems.
4.1.3 G.S.M channel types.
4.1.4 Message & call processing in GSM
4.1.5 Privacy & security in GSM.
4.2 Signal System no.7 (SS7)—performance services.
13
16
05
CDMA
5.1 CDMA digital cellular standard IS-95.
5.1.1 IS.95 frequency & channel specification
5.1.2 IS-95 system architecture. Frequency Spectrum.
5.1.3 IS-95 CDMA calls Processing.
5.1.4 Security & identification in IS-95
5.1.5 Features of IS-95.
11
14
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
3 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
06
Modern wireless communication system
5.1 3GW-CDMA (UMTS) (Universal mobile
Telecommunication system.)
5.2 3G CDMA 2000
5.3 3G- TD-SCDMA (synchronous)
5.4 Wireless local loop & LMDS (local multipoint distribution)
5.5 IMT 2000
5.6 Comparison of 3G systems.
08
10
IMPLEMENTATION STRATEGY
1. Teaching plan
2. Minimum 10 practicals/assignments
REFERENCES :
Sr.
No. Author Title
Publisher &
Address
1. T.S.Rappaport Wireless Communication
Principles & Practices
Pearson
Education
2. William Lee Mobile Cellular Tele
Communication
TataMc Graw
Hill
3
Ashoke
Talukder
Roopa Yavagal
Mobile
Computing
TataMc Graw
Hill
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
4 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
5 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
PROGRAMME TITLE: Diploma in Electronics & Telecom Engineering
SEMESTER : Six
Course
Code Course Title
Pre
requis
ite Credits Examination Scheme
L P
To
tal
Theory
PR OR TW Total T
H
T
S
ET
11612
DIGITAL SIGNAL
PROCESSING
4 2 6 80 20 - 50 25 175
1) Theory paper duration 3 hrs.
2) Theory paper assessment is Internal and External.
3) The assessment of oral is Internal and External.
4) The assessment of Term-Work is Internal
RATIONALE:
Digital Signal Processing continues to play an increasingly important role in the fields that range literally
from A (Astronomy) to Z (Zeugmatography, or magnetic resonance imaging) and encompasses
applications in areas such as Compact Disc Players, Speech Recognition, echo cancellation in
communication systems, image enhancement, geophysical exploration, noninvasive medical imaging, etc.
This subject belonging to the Applied Technology group aims to build concepts related to the
fundamental principles and applications of Signals, System Transforms and Filters.
SECTION 1
Sr.
No. Name of the Topic Periods Marks
01
Discrete Time Signals & Systems
1.1 Signal Classification and Manipulations
1.2 Concept of Linear Convolution and Correlation
1.3 Computation of Convolution and Correlation
1.4 Finite Impulse Response (FIR) and infinite
Impulse Response (IIR) Systems
1.5 Discrete Time Fourier Series ( DTFS )
1.6 Discrete Time Fourier Transform ( DTFT )
1.7 Fourier Transform of Standard Signals
1.8 Properties of Fourier Transform for Discrete Time
Signals(proof of properties not expected)
12
15
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
6 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
02
Time Domain Analysis of DT Systems
2.1 System Transfer Function
2.2 Structures for FIR system
Direct form Realization of FIR system
Cascade form Realization of FIR system
2.3 Structures for IIR Systems
Direct form I and II Realization of IIR system
Cascade form Realization of IIR system
Parallel form Realization of IIR system
20
25
SECTION 2
03
Discrete Fourier Transform (DFT)
3.1 Introduction
3.2 Definition of DFT and IDFT
3.3 DFT of Standard signals
3.4 Twiddle Factor
3.5 Cyclic property of Twiddle Factor
3.6. DFT Properties (proof of properties not expected)
3.7 Circular convolution -
Graphical method
Matrix method
DFT – IDFT method
3.8 Linear convolution using DFT
20
25
04
Fast Fourier Transform
4.1 Introduction
4.2 Radix-2 FFT Algorithm (no derivation is expected)
4.3 Radix-2 Decimation in Time (DIT) FFT Algorithm
4.4 Concept of Butter Fly diagrams for Radix-2 FFT
Algorithms
4.5 Total Signal Flow Graph for 4 point and 8 point
DIT FFT
4.6 Radix-2 Decimation in Frequency (DIF) FFT
Algorithm
4.7 Total Signal Flow Graph for 4 point and 8 point
DIF FFT
4.8 Computation of Inverse DFT (IDFT) Using FFT
Algorithms
12
15
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
7 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
IMPLEMENTATION STRATEGY
1. Teaching plan
2. Minimum 10 practicals using Matlab
REFERENCES
S.
No. Author Title Edition
Publisher &
Address
1 J.G. Proakis
Introduction to Digital
Signal Processing 1
st PHI 2
2
Oppenhiem and
Schaffer
Discrete Time Signal
Processing 3
rd John Wiley
3 S.K. Mitra Digital Signal Processing 5th
TMH
4 N.G. Palan Digital Signal Processing 1st Technova
5 R.A. Barapatre
J.S. Katre
Discrete Time Signal
Processing 2
nd Techmax
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
8 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
9 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
PROGRAMME TITLE: Diploma in Electronics & Telecom. Engineering
SEMESTER : Six
Course
Code Course Title
Pre
requis
ite Credits Examination Scheme
L P
To
tal
Theory
PR OR TW Total T
H TS
ET
11613
DATA
COMMUNICATION
AND COMPUTER
NETWORKING ET
-114
13
4 2 6 80 20 - 50 25 175
1) Theory paper duration 3 hrs.
2) Theory paper assessment is Internal and External.
3) The assessment of oral is Internal and External.
4) The assessment of Term-Work is Internal.
RATIONALE:
This subject is categorized under Applied Technology. After understanding basic communication
systems, it is important to proceed further on to the concepts related to Data Communication and
Computer Networking. The field of communication is the fastest growing technology and
undoubtedly heading towards to a runaway growth in future which makes it important to know
how data transfer takes place from one system to another, through different channels and
computer networks like LAN, MAN, WAN & the Internet. Protocols and standards along with
different switching techniques are some other important issues which are covered in this subject.
SECTION 1
Sr.
No. Name of the Topic Periods Marks
1
Basic Network Concepts
1.1 Understanding Network - Human Networks; Computer
Networks; Network Plan.
1.2 Network architecture – LAN topology, sharing of resources,
managing users & maintaining n/w, –adhoc and infrastructure .
1.3 Distinguishing Between Network classifications
Classifying Networks by their Geography – LAN, MAN,
WAN
10
12
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
10 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
2
Network Topologies and Networking Devices
2.1 Types of Topology – Concept; Advantages; Disadvantages;
Bus , Ring ,Star , Mesh ,Tree , Hybrid Topology; Comparative
study of Topologies. Types of Cables
2.2 Network Connectivity devices – Network interface card
(NIC), Modems, Repeaters, Hubs, Bridges, switches, Router.
2.3 Connectionless services & connection oriented services;
Circuit Switching & Packet Switching
12
16
3
OSI Reference Model
3.1 Need, definition
3.2 Seven Layers of OSI Model:
Physical layer; Data link layer; Network layer; Transport layer;
Session layer; Presentation layer; Application layer.
10
12
SECTION 2
4
TCP/IP Reference Model
4.1 Link; Internet; Transport; Application layer.
4.2 Comparison of the OSI and TCP/IP reference models.
4.3 TCP/IP Protocols – Introduction to TCP/IP Layers
10
12
5
Concept of Data Communication & Networking
5.1 Data Communication – Protocols; Standards - De-facto &
de-jurie
Standards Organizations (ITU-T, ANSI- )
5.2 Signal Propagation - Analog & Digital Signals;
Bandwidth of signal & a medium; Data transmission rate and
bandwidth.
10
12
6
Transmission Errors-Detection & Correction
6.1 Error classification – Delay distortion, Attenuation,
Noise; Types of Errors;
6.2 Error detection -Vertical redundancy check; longitudinal
redundancy check; Cyclic redundancy check;
6.3 Error Correction Code: Hamming Code
12
16
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
11 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
PRACTICALS
1. Draw and study the layout of LAN network and compare different Network
Topologies.
2. Observe Hardware Components starting with NIC used in Networking. Compare
network directing devices i.e. Hub, Switch and Router.
3. Installation of Client O.S. (Windows XP)
4. Installation of Network Interface Card (NIC).
5. Use step by step procedure for File Sharing and Printer Sharing.
6. Sharing Resources, Accessing Shares and Share Level Security.
7. Use and practice of Crimping Tool.
8. Installation of Windows Server O.S.
9. Make a small LAN – with 4 to 5 computers.
IMPLEMENTATION STRATEGY:
1. Teaching plan
2. Minimum 10 assignments/practicals.
REFERENCES:
S.
No. Author Title Publisher & Address
1 Achyut S.
Godbole
Data Communication &
Networking
Tata McGraw-Hill
2 B.A. Forouzan Data Communication &
Networking
Tata McGraw-Hill Edition
(4th Edition)
3 Michal Miller Data & Network
Communication
Thomson Delmar Learning
4 Andrew
Tannenbaum
Computer Networks Mc-Graw Hill International;
New York
5 Comer &
Stevens
TCP/IP (Vol. 1) Mc-Graw Hill International;
New York
6 William
Stallings
Computer Networks Mc-Graw Hill
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
12 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
13 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
PROGRAMME TITLE: Diploma in Electronics & Telecom. Engineering
SEMESTER : Six
Course
Code Course Title
Pre
requis
ite Credits Examination Scheme
L P
To
tal
Theory
PR OR TW Total T
H
T
S
ET
11614 DIGITAL
COMMUNICATION
4 2 6 80 20 50 - 25 175
1) Theory paper duration 3 hrs.
2) Theory paper assessment is Internal and External.
3) The assessment of practical is Internal and External.
4) The assessment of Term-Work is Internal.
RATIONALE:
This subject comes under the Applied Technology category. Presently, majority of the telecommunication
systems operate on the basis of digital principles. It demands that the student has a good working
knowledge of fundamentals of pulse and data communication. The subject will help the student in
understanding the concepts of various pulse modulation techniques and methods of generating and
decoding, in each of the pulse modulation systems, along with error detection and correction methods.
SECTION 1
Sr.
No. Name of the Topic Periods Marks
01
INFORMATION THEORY:
1.1 Measure of information
Amount of information
Average information
Information rate
1.2 Channel capacity ,Definition
1.2.1 Hartley’s laws related to channel capacity
1.2.2 Shannon & Hartley theorem
1.2.3 Problems on above topics
1.2.4 Channel noise and its effect
1.3 Coding methods
1.3.1 Concept of channel coding, advantages and disadvantages
1.3.2 Concept of generator matrix and parity matrix
1.3.3 Hamming code
12
16
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
14 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
1.3.4 Problems on the above topics
1.4 Multilevel systems
1.4.1 Comparison with binary coding system ,
Communication efficiency
02
PULSE COMMUNICATIONS:
2.1 Pulse modulation
2.1.1 Comparison with CW modulation
2.1.2 Advantages
2.1.3 Sampling theorem and its importance
2.1.4 Classification of Pulse modulation
2.2 Analog Pulse modulations: PAM, PWM & PPM
2.2.1 Pulse Amplitude modulation (PAM)
2.2.2 Single and Double Polarity type
2.2.3 Pulse Width modulation (PWM) - Definition,
waveforms, Description
2.2.4 Symmetrical PWM, leading edge and trailing edge
PWM
2.2.5 Generation of PWM
2.2.6 Pulse Position Modulation (PPM) Definition,
waveforms, description
2.2.7 Generation of PPM from PWM
2.2.8 Block diagram of PPM transmitter
2.2.9 Relative advantages and disadvantages of PAM,
PWM & PPM systems
2.3 Digital Pulse Modulation
2.3.1 Pulse Code Modulation (PCM)
2.3.2 Principles of PCM
2.3.3 Quantization of signal for PCM
2.3.4 Quantization error
2.3.5 Block diagram of 10 channel PCM transmitter
2.3.6 Companding
2.3.7 Demodulation of PCM
2.3.8 Block diagram of PCM receiver
2.3.9 Delta Modulation - working principle
20
24
SECTION 2
03
CHANNEL MULTIPLEXING:
3.1 Multiplexers and De-multiplexers
Need for multiplexing of communication channels
3.2 Time Division Multiplexing (TDM), Definition
Block diagram of a typical TDM system, Waveforms
3.3 Frequency Division Multiplexing (FDM)
3.3.1 Definition ,Group formation
10
12
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
15 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
3.3.2 Pre group, Basic group formation
3.3.3 Block diagram of 12 channel Basic group
3.3.4 Super group Block diagram of Super group
3.3.5 Master group, Super Master group
3.3.6 Standard frequency allocations and bandwidth
considerations in each of these groups ,Pilot carrier
frequencies
3.3.7 General block diagram of FDM Transmitter &
Receiver
3.3.8 Comparison - relative performances of TDM &
FDM systems.
04
BINARY MODULATION TECHNIQUES:
4.1 Base band signals and systems
4.2 Line codes – need, types – NRZ, RZ, Phase-encoded,
multilevel binary
4.3 CW modulation techniques
4.3.1 AMPLITUDE SHIFT KEYING (ASK) :
4.3.1.1 Definition, description, waveforms.
4.3.1.2 ASK modulator
4.3.1.3 ASK receiver
4.3.1.4 Advantages, disadvantages and applications
4.3.2 FREQUENCY SHIFT KEYING (FSK) :
4.3.2.1 Definition, description, waveforms
4.3.2.2 FSK modulator using Timer IC 555
4.3.2.3 FSK receiver (PLL type), Advantages
4.3.2.4 Applications
4.3.3 PHASE-SHIFT KEYING (PSK):
4.3.3.1 Definition, description, waveforms of BPSK signal
4.3.3.2 BPSK transmitter - Circuit diagram study using Ring
modulator
4.3.3.3 BPSK receiver
4.3.3.4 QPSK- definition, waveforms, constellation diagram
4.3.3.5 QPSK - transmitter and receiver systems
4.3.3.6 QAM – definition, constellation diagram, types
4.3.3.7 QAM transmitter and receiver systems
15
20
05
SPREAD SPECTRUM TECHNIQUE:
5.1 Concept
5.2 Types- frequency hop, direct spread spectrum
07
08
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
16 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
PRACTICALS
1. Observe and Plot Pulse Amplitude Modulated (PAM) wave using OPAMPS. Measure
amplitudes of different pulses in it.
2. Observe and Plot Pulse Amplitude Modulated (PAM) wave using Transistorized circuit
Measure amplitudes of different pulses in it.
3. Observe and Plot Pulse Width Modulated (PWM) wave using OPAMPS. Determine ON-
OFF Time (width) of different pulses in it.
4. Observe and Plot Pulse Width Modulated (PWM) wave using single OPAMP. Determine ON-
OFF Time (width) of different pulses in it.
5. Observe and Plot Pulse Position Modulated (PPM) wave using the given kit. Measure the
advanced position of trailing edge pulses with respect to leading edge pulses
6. Observe and Plot Pulse Position Modulated (PPM) wave using PWM and differentiator.
Measure the advanced position of trailing edge pulses with respect to leading edge pulses
7. Observe and Analyze the Pulse sequence of Pulse Code Modulated (PCM) using the given
kit. Plot the pulse sequence on graph sheet
8. Observe and Analyze the Multiplexing of different i/ps using Time Division Multiplexing
(TDM) kit. Plot the waveforms observed on graph sheet.
9. Observe and Analyze the De-multiplexing of different i/ps using Time Division De-
Multiplexing kit . Plot the waveforms observed, on graph sheet.
10. Observe and Plot Frequency Shift Keyed (FSK) wave using the given kit. Measure the
Frequency shift in it
IMPLEMENTATION STRATEGY
1.Teaching plan
2.Minimum 10 practicals/assignments
REFERENCES
S.
No. Author Title Edition
Year of
Publication
Publisher &
Address
1. George
Kennedy
Electronic
Communication
Systems
4th
1999
Tata McGraw-
Hill
New Delhi.
2. Roddy Coolen Electronic
Communication 3
rd 2000
Prentice Hall of
India, New Delhi
3. Taub Schilling
Principles of
communication
Systems
3rd
1986
McGraw-Hill
International,
New York
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
17 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
PROGRAMME TITLE: Diploma in Electronics & Telecom. Engineering
SEMESTER : Six
Course
Code Course Title
Pre
requis
ite Credits Examination Scheme
L P
To
tal
Theory
PR OR TW Total T
H
T
S
ET
11615
MICRO-
CONTROLLER
AND
APPLICATIONS 4 2 6 80 20 50 - 25 175
1) Theory paper duration 3 hrs.
2) Theory paper assessment is Internal and External.
3) The assessment of practical is Internal and External.
4) The assessment of Term-Work is Internal.
RATIONALE:
This subject which comes under the Applied Technology group will enable the students to
comprehend the theory, concepts, working of microcontrollers, their programming and also their
applications in electronic systems. The knowledge acquired by student will help them to design,
test, troubleshoot and program microcontroller based systems. Knowledge of microprocessors
will provide a quicker grasping and understanding of the internal working and operation of
microcontroller based control systems in industry.
SECTION 1
Sr.
No. Name of the Topic Periods Marks
01
Introduction
Definition, Difference between Microprocessor and
Microcontroller, various microcontrollers and their manufacturers,
specifications of MCS-51 Microcontrollers.
02
04
02
MCS 8051
Features, Description of every pin of 8051. Study of internal block
diagram of 8051, memory organization, 8051 machine cycle
concept, significance of flags, ports.
10
12
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
18 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
03
Instruction set
Instructions, instruction classification, addressing modes.
10
12
04
8051 programming
Programs for simple arithmetic and logic problems.
10
12
SECTION 2
05
SFR's of 8051
Format of SFR's - TMOD, TCON, SCON, SBUF, IE, IP
Significance of each bit of SFR's, Programs for using timer,
programs for serial data communication.
10
12
06
Interfacing with external chips
2732, 8155, ADC & DAC-interfacing with 8051.
06
08
07
Applications
A/D & D/A conversions, pulse width measurement, LCD interface,
Matrix keyboard interface, temperature measurement and control,
stepper motor control.
10
12
08
16-bit Microprocessor 8086
Salient features of 8086 Microprocessor, architecture of 8086
(Block diagram), register organization, concepts of pipelining,.
Comparison between 8085 & 8086 processors.
06
08
EXPERIMENT LIST
1. Draw flow chart, write and execute a program for data block transfer.
2. Draw flow chart,write and execute a program for complementing data block transfer.
3. Draw flow chart,write and execute a program for filling the data block with constant
byte.
4. Draw flow chart,write and execute a program for multiple addition.
5. Draw flow chart,write and execute a program for multiple subtraction.
6. Draw flow chart,write and execute a program to find the odd and even number in a data
block.
7. Draw flow chart,write and execute a program to find the largest number from a given
data block.
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
19 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
8. Draw flow chart,write and execute a program to find the smallest number from given
data block .
9. Draw flow chart,write and execute a program for multiplication.
10. Draw flow chart,write and execute a program for division.
11. Draw flow chart,write and execute a program to arrange in descending order.
12. Draw flow chart,write and execute a program to arrange in ascending order.
13. Draw flow chart,write and execute a program to find square root of a given number.
14. Draw flowchart and write program to transfer data serially
15. Draw flowchart and write program to generate square wave on port1 pins using timer .
16. Micro controller interface with ADC.
17. Micro controller interface with stepper motor
IMPLEMENTATION STRATEGY
1. Teaching plan
2. Minimum 10 practicals / assignments
REFERENCES
Sr.
No. Author Title Edition
Year of
Publication
Publisher &
Address
1. Intel
Intel data sheets
- -
Intel
USA
2. Muhammad Ali
Mazidi
The 8051
microcontroller 1st 2002
Pearson
Education Delhi
branch
3 Kenneth Ayala The 8051
Microcontroller 1st 1988 Prentice Hall Int
4 Douglas V. Hal
Microprocessors &
Interfacing
Programming &
Hardware
McGraw Hill
International
Edition
Details of the references to be/ will be provided by the concerned teacher
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
20 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
21 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
PROGRAMME TITLE: Diploma in Electronics & Telecom. Engineering
SEMESTER : Six
Course
Code Course Title
Pre
requis
ite Credits Examination Scheme
L P
To
tal
Theory
PR OR TW Total T
H
T
S
ET
11616 PROJECT
(No Theory exam) - 4 4 - - - 50 50 100
The assessment of project oral is Internal and External.
The assessment of term work is Internal.
RATIONALE:
Project is classified under Applied Technology courses. In continuation to the Project work
started by the student in the fifth semester, he/she has to meet the set goals of testing, finalization
and completion before the end of the sixth semester. Project work is supposed to be largely a
student centered activity. It is a purposeful student activity which is supposed to be planned,
designed and performed by a student or a group of students, which ultimately will help them to
accomplish higher level cognitive and affective domain activities. It will also help them to
achieve psychomotor objectives. The objective of the project work undertaken is to reinforce and
integrate previously acquired lower sub-skills and attitudes within a branch and slowly transform
them into higher level skills. It will help to develop competencies and confidence to solve open
and real life interdisciplinary problems. Project work is supposed to develop thinking, planning
and decision making skills with ample scope for using creativity. It presents a challenging and
task oriented learning environment with optional solutions, besides developing ability and
confidence in accomplishing targets with given time and resources constraints. It is also meant to
develop higher level interactive skills and ability of working in teams.
OBJECTIVE :
The students will be able to do the following:
1.Design, analyze, test & implement the various projects
2 Feasibility Studies and Approvals
3. The Project Organization, The Functional Organization,
The Matrix organization, Designing an Organization, Building the Team, Leadership
4. Defining and Financing the Project. How Project Evolve- the Client Brief.,
Financing the Project. Sources of Finance and Cash Flow.
DETE SYLLABUS FOR SIXTH SEMESTER - JANUARY 2014
22 ST. XAVIER’S TECHNICAL INSTITUTE, MAHIM, MUMBAI
CONTENTS
Sr.
No. Name of the Topic Periods Marks
1
ANALYSIS
Electronics/Software Requirement Specification,
Enhancement Model, Role of Management in
Electronics/Software Development,
Role of Metrics and Measurement, Problem Analysis,
Requirement Specification,
Validation, Metrics, Monitoring and Control.
10
2
DESIGN
Problem Partitioning, Abstraction, Design, specification
& verification, metrics, Monitoring & Control
12
3
TESTING,MAINTENANCE & IMPLEMENTATION OF
THE SELECTED PROJECT
Levels of Testing- Functional Testing, Structural Testing,
Test Plan, Test Cases Specification, Reliability
assessment.
Project Management, Cost Estimation, Project
Scheduling, Electronics/Hardware/Software
Configuration Management, Quality Assurance, Project
Monitoring, Risk Management
10
INSTRUCTIONS:
1. The typed project report must be bound and submitted by each student before the end
of the term.
2. One extra copy of the project report per batch must be submitted to the examiner.
REFERENCES
S.
No. Author Title Edition
Year of
Publication
Publisher &
Address
1. Bosschart
Printed Circuit Board
- Design and
Technology
Details of the references to be/ will be provided by the concerned teacher