1. 7XT1 DATA COMMUNICATION NETWORK
SECTION-A
Unit 1: - Introduction to Communication Network
Network Functions; Network Topology; Types of network: LAN,
MAN, WAN, Basics of Circuit switching, packet switching,
message switching and cell switching, Layered Architecture:
Need for Protocol; Protocol & Protocol architecture model; OSI
Reference model; Overview of TCP/IP architecture
(6)
Unit 2: - Peer to Peer Protocols and Data Link control, Point to Point
Protocol and service models; End to End requirements and
Adaptation Function; End to End versus Hop by Hop
Flow Control: Need for flow control; Stop and Wait Flow
Control; Sliding Window Flow Control; Stop and wait ARQ; Go-
Back-N ARQ; Selective Repeat ARQ; Transmission efficiency of
ARQ protocols; HDLC Protocol (8)
Unit 3: - Local Area Networks and Access Control Protocols, LAN
Architecture; Medium Access Control (MAC) and Logical Link
Control (LLC) for LAN; Contention Techniques: CSMA,
CSMA/CD (IEEE 802.3)
Control Access Techniques: Token Bus (IEEE 802.4); Token
Ring (IEEE 802.5); Polling; FDDI, Random Access Techniques:
ALOHA; Slotted ALOHA;
(10)
SECTION-B
Unit 4: - Networking Devices, Routing Techniques and Traffic Control
Protocols:
Hubs; Switches; Bridges; Routers; Gateways; Routing Switches
Routing Algorithms: Alternate routing in circuit switched
network; Fixed Routing, Flooding, and Random Routing in
Packet Switched networks
Least Cost Algorithms: Dijkstra’s Algorithm (Problems
expected); Bellman Ford Algorithm (Problems expected) Traffic
Control: Leaky Bucket algorithm; Token Bucket Algorithm
(8)
2. Unit 5: - Asynchronous Transfer Mode (ATM), Frame Relay and ISDN
ATM: - ATM Protocol Architecture; Concept of Virtual channel
and Virtual path; ATM Cell; ATM Services
Frame Relay: - Protocol architecture
ISDN: -Principles of ISDN; ISDN Architecture; ISDN Channels;
Broadband ISDN Functional Architecture
(7)
Unit 6: - TCP/IP Protocol
Overview of TCP/IP; IP Services; Internet Protocol (IPv4);
Classfull and Classless IP Addressing; Internet Control Message
Protocol (ICMP); IP Address Resolution protocol; Reverse
Address Resolution Protocol; IPv4 versus IPv6; IP Datagram;
Datagram Forwarding; TCP (Frame Format); UDP (Frame
Format) (7)
TEXT BOOKS :
1. W. Stallings : “Data and Computer Communications”, (Maxwell
Macmillan)
2. Behrouz A Forouzan : “Data Communication and Networking” ,
(TMH)
REFERENCE BOOKS :
1. D Bertsekas and R.G. Gallager: “Data Networks”, (2 e) , Pearson Ed.,
(PHI)
2. A. S. Tanenbaum : “Computer Networks”, PHI
3. UylessBlack : “Computer Networks”, (PHI)
4. Douglas E. Comer : “Computer Networks and Internets”, ( Pearson
Education)
5. Gerd Kaiser, “ Local area network”, (TMH) 2nd
Edition
6. Leon Garcia, “ Communication Network.
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7XT2 MICROCONTROLLER & APPLICATIONS
SECTION-A
UNIT-I : An Introduction to uC 8051:Architecture of 8051, Signal
description of 8051, Register set of 8051, Timer structure and
their mode and I/O port structure. Bus standards : Serial RS 232,
Parallel IEE-488
3. 8 Lectures
UNIT-II: Instruction set of 8051, Addressing modes of 8051, Memory and
I/O addressing by 8051, Assembly Language Programming using
8051.
8 Lectures
UNIT-III:Study of ADC 0809, DAC 0808 and its interfacing with 8051,
Interfacing of Sensors, Measurement of Temperature, Speed and
Resistance.
8 Lectures
SECTION-B
UNIT-IV:Interfacing LCD & Keyboard with 8051., Relays and Optoisolators,
Stepper Motor interfacing, DC motor interfacing and PWM with
8051.
UNIT-V: Serial port programming in assembly: Basics of serial
communication, 8051 connection to RS232C, 8051 Serial port
programming in assembly. RTC interfacing and Programming :
DS 12887 RTC interfacing, Programming, Alarm, SQW, and
IRQ features of DS 12887 Chip.
(10 )
UNIT-VI :8051 programming in C : Data types and time delay in 8051 C, IO
programming in 8051 C, Logic operations in 8051 C, Data
conversion programs in 8051 C, Accessing code ROM space in
8051 C, Data serialization using 8051 C.
TEXT BOOKS :
1. M. A. Mazidi, J. G. Mazidi and R. D. McKinley : “The 8051
Microcontroller and Embedded Systems using Assembly and C”,
Pearson Education (2nd
Ed.)
2. K.J.Ayala : “The 8051 Microcontroller”, Penram Int. Pubs., 1996
REFERENCE BOOKS :
1. Using the MCS-51 Microcontroller by Han- Way Huang, Oxford
University Press
2. National Semiconductor : Data Acquisition Linear Devices Data Book.
3. Embedded Microcontrollers and Processors:-Volume-I-Intel
4. Intel Peripheral Devices Data Book.
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7XT3 DIGITAL SIGNAL PROCESSING
SECTION-A
4. UNIT-I : Introduction to DSP, Frequency domain description of
signals & systems, Discrete time sequences systems:
Linearity, causal, Time invariant system, Stability criteria,
Convolution unit sample response. (10)
UNIT-II: Z- transform: complex Z-plane, ROC determination of filter
coefficients and its properties, Solution of difference
equations using Z-transform, inverse Z-transform.
(12)
UNIT-III: Introduction to Fourier transform of discrete time signal and
its properties. Inverse Fourier transforms DFT and its
properties, Circular convolution, linear convolution from
DFT, FFT: Decimation in time and frequency radix 2
algorithm.
(10)
SECTION-B
UNIT-IV: Filter Structures: Direct form I, Direct form II, Cascade and
parallel structure for IIR and FIR Filter, Frequency sampling
structures for F.I.R. filter. FIR filter design: Design by Pole
Zero Placements and Windowing method: Rectangular,
Triangular, Blackman window and Kaiser window.
(8)
UNIT-V: Methods to convert analog filter into IIR digital: Mapping of
differential equation, Impulse invariant, bilinear
transformation, and Matched Z transformation. Design of
Analog filter: Specification and formulae to decide to filter
order cut of frequency and transfer function of Butterworth
filter and Chebyshev filter.
(8)
UNIT-VI: Multi rate DSP, Introductory concept of multi rate signal
processing, Design of Practical sampler, Rate converters,
Decimators and Interpolator, Filter Bank application and
examples. Overview and architecture of DSP processor
TMS320C54XX. (8
)
5. TEXT BOOKS :
1. Oppenheim & Schafer: Discrete time Processing (PHI)
2. Proakis&Manolakis D.G. : Digital Signal Processing (PHI)
3. Mitra S.K. : Digital Signal Processing (TMH)
REFERENCE BOOKS :
1. Roman Kuc : Digital Signal Processing (MGH)
2. Ifeacher E.C., Jervis B. W. : Digital Signal Processing (Addison
Wesley)
3. P. P. Vaidyanathan : DSP and Multirate Systems (PHI)
4. Rabiner and Chrocherie :Multirate DSP (PHI)
5. Avtar Singh, S Shrinivasan : DSP implementation using DSP
microprocessor with
example From TMS320C54XX. Brooks cole publisher 2003.
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Professional Elective -I
7XT4 (1) VLSI DESIGN
SECTION-A
Unit I : Digital Design Fundamentals: Review of techniques of usinga
truth table, canonical forms to develop the AND/OR orOR/AND
combinational circuit models, minimizationtechniques, Hazards
and Hazard free circuits. Differencebetween combinational and
sequential circuits. General model
of sequential machine, timing and triggering considerations.
Unit II : Basic HDL Constructs: VLSI Design flow, Overview ofdifferent
modeling styles in VHDL, Data types and dataobjects in VHDL,
Dataflow Modeling, Behavioral Modeling,using VHDL for
combinational Circuits and sequential
Circuits.
Unit III : Hardware Description Language: Structural
Modeling,Subprograms, Packages and Libraries,
Generics,Configurations, attributes. Comparison of various
HardwareDescription Languages.
SECTION-B
6. Unit IV : Programmable Logic Devices: Introduction to CPLDs:Function
block architecture, input/output block, switch matrix,Study of architecture of
CPLDs of Altera /Xilinx. Introductionto FPGAs: Configurable logic block,
input/output block andinterconnect, Study of architecture of FPGAs of Xilinx
/Altera.
Unit V: CMOS Circuits: Different logic families, MOS Transistor,CMOS
as an inverter, propagation delay, power consumption/dissipation
issues, simple circuits using CMOS.
Unit VI: CMOS Processing & Digital Circuit Verification:
CMOSFabrication: Different steps of fabrication, CMOS p-well,
n-Welland twin tub processes, CMOS Layout and Designrules.
Simple Test Bench, Simulation and Synthesis issues,case study
of ALU/ Sequence Detector.
Text Books:
1) Neil H.Weste and Kamran Eshraghian, “Principles of CMOS
VLSIdesign”. Pearson
2) J Bhasker,” VHDL Primer”. Addison Wesley
3) Douglas Perry,” VHDL” Tata McGraw HILL
4) William I. Fletcher “An Engineering approach to Digital
Design”,Prentice Hall India.
Reference Books:
1) Stephen Brown and ZvonkoVranesic, “Fundamentals of DigitalLogic
with VHDL Design”. Tata McGRAW HILL
2) Wayne Wolf: “VLSI Technology”
3) VLSI Test Principles and Architectures by LaungTerng Wang, Elsevier
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