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SILVER OAK COLLEGE OF ENGINNERING & TECHNOLOGY
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
Mid Sem Exam Syllabus
Name of Faculty: Mr. Mohammed Vayada & Mr. Vimal H. Nayak
Subject: Analog circuit Design (2141002) Semester: 4th
Exam Date: 10/03/2015
Unit 3: Operational Amplifiers
The basic operational amplifier, The differential amplifier, The emittercoupled differential amplifier,
Transfer characteristics of a differential amplifier
Unit 4: Introduction to Operational Amplifiers, Interpretation of Data Sheets and Characteristics
of an Op-amp
Introduction, Block Diagram representation of a typical op-amp, its equivalent circuits, types of ICs,
Manufacturers’ designations and package types for ICs, Power supplies for ICs, Interpreting datasheet,
Ideal op-amp, Equivalent circuit of an op-amp, Ideal voltage transfer curve, Open-loop op-amp
configurations
Unit 5: An Op-amp with Negative Feedback
Voltage series feedback amplifier, Voltage shunt feedback amplifier, Differential Amplifier
Unit 6: Op-amp Offset Voltage
Introduction, Input offset voltage, Input bias current, Input offset current, Total output offset voltage,
Thermal Drift, Effect of variation in power supply voltages on offset voltage, Change in input offset
Voltage and input offset current with time, Other temperature and supply voltage sensitive parameters,
Noise
Unit 7: General Linear Applications
DC and AC Amplifiers, AC amplifiers with single supply voltage, Peaking amplifier, Summing, Scaling
and Averaging Amplifier, Instrumentation Amplifier – its block diagram along with applications,
Differential input and differential output amplifier, Voltage-to-current converter with floating load (low
voltage DC voltmeter, low voltage AC voltmeter, Diode match finder, Zener diode tester, Light emitting
diode tester), Current-to-voltage converter, Integrator, Differentiator.
Unit 8: Comparators and Converters
Comparator, Zero crossing detector, Schmitt Trigger, Voltage limiters, Clipper and clampers, Absolute
value output circuit, Peak detector, Sample and hold circuit, Precision rectifier – Half/Full Wave, Square,
Triangular and Saw tooth wave generator, Common mode configuration and common mode rejection
ratio, Slew rate and its equations, Effect of slew rate in applications
SILVER OAK COLLEGE OF ENGINNERING & TECHNOLOGY
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
Mid Sem Syllabus
Name of Faculty: Raj Hakani & Harsha Gupta
Branch: Electronics and Communication Engineering (EC)
Semester: 4th
Subject: Control System Engineering (2141004)
Chapter 1: Introduction to Control Systems
Introduction
Brief History of Automatic Control
Examples of Control Systems
Engineering Design
Mechatronic Systems
Chapter 2: Mathematical Models of Systems
Differential Equations of Physical
Systems
Linear Approximations of Physical Systems
The Laplace Transform
The Transfer Function of Linear Systems
Block Diagram Models
Signal-Flow Graph Models
Chapter 3: State Variable Models
Signal-Flow Graph and Block Diagram Models
Alternative Signal-Flow Graph and Block Diagram Models
The Steady-State Error of Feedback Control Systems
Performance Indices
Chapter 4: Feedback Control System Characteristics
Error Signal Analysis
Sensitivity of Control Systems to Parameter Variations
Disturbance Signals in a Feedback Control System
Control of the Transient Response
Steady-State Error
The Cost of Feedback
Chapter 5: The Performance of Feedback Control Systems
Test Input Signals
Performance of Second-Order Systems
Effects of a Third Pole and a Zero on the Second-Order System Response
The s-Plane Root Location and the Transient Response
The Steady-State Error of Feedback Control Systems
Performance Indices
The Simplification of Linear Systems
Chapter 6: The Stability of Linear Feedback Systems
The Concept of Stability
The Routh-Hurwitz Stability Criterion
The Relative Stability of Feedback Control Systems
SILVER OAK COLLEGE OF ENGINEERING & TECHNOLOGY
Mid Semester Exam Syllabus
Subject : EMI 4th Semester
SILVER OAK COLLEGE OF ENGINNERING & TECHNOLOGY
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
Mid Sem Exam Syllabus
Name of Faculty: Amit Agrawal
Subject: Microprocessor & Interfacing
Topics
1. Pin Diagram of 8085
2. Pin Diagram 8086
3. Architecture of 8085,8086
4. Comparison of 8085 and 8086
5. Assembly language programming of 8085.
6. Addressing modes of 8085
7. Instructions and their machine cycles
8. Memory map of 8085
9. No. of bytes of instructions in 8085
Silver Oak College of Engineering & Technology
Signal & System Mid Semester Syllabus
Topics:
1. Signal transformation,
2. Types of signals, properties of systems,
3. Difference between continuous and discrete signals and systems,
4. Convolution integral for continuous signals,
5. Properties of convolution sum,
6. Convolution sum for discrete signals,
7. Overview of laplace transformation,
8. Relationship between laplace transform and continuous time fourier transform,
9. Definition of z - transform,
10. Properties of z - transform,
11. Inverse z - transform,
12. Solving difference equation using z – transform
Subject Coordinator
Amit Agrawal
SILVER OAK COLLEGE OF ENGINEERING & TECHNOLOGY
Mid Semester Exam Syllabus Summer 2015
Subject : Audio Video Systems
Unit 1:‐ Sound Fundamentals:
The Physics of Sound Sound and the Ear The Cochlea and Mental Processes Level and Loudness Pitch, Frequency Response and Linearity Audio Level Metering The Decibel in Acoustics Acoustic Intensity Level, Acoustic Power Level, Acoustic Pressure Level Inverse Square Law, The VU and the Volume Indicator Instrument The Phon, Velocity of Sound, Reflection and Refraction, Absorption, Root Mean Square
Measurements Selection of sound absorbing materials. Architectural Acoustics.
Unit 2 :‐ Sound Amplification:
Preamplifiers Requirements Signal Voltage and Impedance Levels Preamplifier Stages Voltage Amplifier Design Constant‐Current Sources and Current Mirrors Performance Standards, Power Amplifier Classes, Thermal Dissipation Limits Single‐Ended Versus Push–Pull Operation Switching Amplifiers Amplifier Grounding Cross Over Network. Audio Terminations Line‐in/out, Aux‐in/out, Mic In.
Unit 3:‐ Digital Audio :
Digital Audio Fundamentals Sampling and Quantizing PCM Audio Compression Disk‐Based Recording Rotary Head Digital Recorders Digital Audio Broadcasting, Digital Filtering, Stereophony and Multi‐channel Sound.
Unit 4 :‐Audio Devices and Applications:
Microphone Sensitivity, Nature of Response and Directional Characteristics, Measurement Microphones, Various Types of Microphones, Various Types of Loudspeakers, Characteristic Impedance of Loud Speakers, Headphone Types, The basics of Magnetic Recording, Sound Cards, Sound Mixers, PA Systems & Installations, Digital Consoles.
SILVER OAK COLLEGE OF ENGINNERING & TECHNOLOGY
DEPARTMENT OF ELECTRONICS & COMMUNICATION
MIDSEM EXAMINATION SYLLABUS 2015
Semester: VI
Subject: ANTENNA AND WAVE PROPAGATION (161003)
1. Basic Antenna Concepts:Definition and functions of an antenna, comparison between an antenna & transmission line, radio communication link with transmitting antenna and a receiving antenna, radiation patterns of antennasfield and power patterns, all antenna types.
2. Radiation of Electric dipole:Potential functions and the electromagnetic field, Oscillating electric dipolederivations for E and H field components in spherical coordinate systems, Power Radiated by a current element, Application to antennas, Radiation from quaterwave monopole and half wave dipoles, Derivation for radiation resistance, application of reciprocity theorem to antennas, equality of directional patterns and effective lengths of transmitting and receivingantennas, directional properties of dipole antennas,antenna feeding methods.
3. Antenna parameters and definitions: beam area, beam width HalfPower Beam width (HPBW)and First Null Beam width(FNBW) ,Polarisation,Radiation Intensity ,Beam Efficiency, Directivity and directive gain, radiation resistance, radiation efficiency, resolution, Antenna aperturephysical and effective apertures, effective height, transmission formula, antenna field zones, Transmission loss as a function of frequency.Antenna temperature and signal to noise ratio.
4. Arrays of point sources:Expression for electric fields from two, three and N element arrays linear arrays: Broadside array and EndFire array Method of pattern multiplication Binomial arrayHorizontal and Vertical Antennas above the ground plane, Effect of ground on ungrounded antenna, Schelkunoff theorems for linear arrays, DolphTchebysheff distribution for linear arrays.
5. Loop Antenna:Small loop short magnetic dipole, comparison of far field of small loop and short dipole loop antennas, field pattern of circular loop antenna & radiation resistance of loop antenna, directivity of circular loop antennas with uniform current.
6. Helical antenna:Helical geometry, transmission radiation modes, practical design considerations, wide band characteristics of helical antenna.
7. Arrays of dipoles & apertures:3 element dipole Array with parasitic elements,Yagiuda arrayfunction and its design, Phased arrays, frequency scanning arrays, smart antennas, long wire antennas, location methods of feeding antennas, folded dipole antennas, matching arrangements.
SILVER OAK COLLEGE OF ENGINNERING & TECHNOLOGY
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
Mid Sem Exam Syllabus
Name of Faculty: Mr. Vimal H. Nayak & Ms. Harsha Gupta
Subject: Digital Communication (161001) Semester: 6th Exam Exam Date: 09/03/2015
Unit 1: Probability Theory & Random Variables
Information, Probability, Conditional Probability of independent events, Relation between probability and
probability Density , Releigh Probability Density , CDF, PDF, Random Variables, Variance of a Random
Variable, correlation between Random Variables, Statistical Averages(Means),Mean and Variance of sum
of Random variables, Linear mean square Estimation, Central limit theorem, Error function and
Complementary error function Discrete and Continuous Variable, Gaussian PDF, Threshold Detection,
Statistical Average, Chebyshev In Equality, Auto correction.
Unit 2: Information Theory:Concept & Measure of information, Source Coding, Error Free Communication Over a noisy channel,
Shannon Theorem, The channel capacity of a Discrete Memory less Channel, Optimum System, The
Channel capacity of a Continuous Channel, Practical Communication System In Light of Shannon’s
Equation.
Unit 3: Formatting a Base Band ModulationBase band system, The Sampling Theorem, Sampling and interpolation functions, Spectra, Nyquist
Theorem, Under sampling, Applications ,Aliasing, PCM, DPCM, ADPCM, Uniform and Nonuniform
Quantization, Quantization Error in PCM, Delta Modulation, Adaptive Delta Modulations ,SNR
Calculation, Nonuniform Quantization, Phase Modulation.
Unit 4: Digital communication systemLine coding
Unit 5: Error Correcting CodesIntroduction, Linear block code, cyclic code
Silveroak college of engineering and technology
Midsem exam syllabus 2015
Subject : Optical communication(161005)
Silver Oak College of Engineering and TechnologySubject: VLSI Technology and Design(161004) Mid Sem Syllabus 2015
Unit 1 IntroductionOverview of VLSI design methodologyVLSI design flowDesign hierarchy Concept of regularity, Modularity, and LocalityVLSI design styleDesign quality Package technologyComputer aided design technology
Unit 2 Fabrication of MOSFETIntroduction Fabrication Process flow: Basic stepsCMOS nWell ProcessLayout Design rules Full custom mask layout design
Unit 3 MOS TransistorThe Metal Oxide Semiconductor (MOS) structureThe MOS System under external bias Structure and Operation of MOS transistorMOSFET Current Voltage characteristicsMOSFET scaling and smallgeometry effectsMOSFET capacitances
Unit 4 MOS Inverters: Static characteristicsIntroduction Resistive load Inverter,Inverter with ntype MOSFET load (Enhancement and Depletion type MOSFET load)CMOS Inverter
Unit 5 Introduction to Programmable Logic DevicesFPGA and CPLD
SILVER OAK COLLEGE OF ENGINEERING & TECHNOLOGY, AHMEDABAD
Department: ELECTRONICS & COMMUNICATION ENGG.
Name of Laboratory: DATA COMMUNICATION & NETWORKING
Semester: VIII
Subject (code): 181101
MidSemester Syllabus
1. INTRODUCTION:Network Hardware, Topology, Network Software, Reference Models, Example Networks, Uses of Computer Networks, ARPANET, Connection Oriented Networks, X.25, Frame Relay, ATM
2. PHYSICAL LAYER:The Theoretical Basis for Data Communication,The Public Switched Telephone Network, The Mobile Telephone System
3. DATA LINK LAYER:Data Link Layer Design Issues, Error Detection and Correction, Elementary Data Link Protocols, Sliding Window Protocols, Example Data Link Protocols
4. MEDIUM ACCESS CONTROL SUB LAYER:The Channel Allocation Problem, Multiple Access Protocols, Ethernet, Wireless LANs, Broadband Wireless, Bluetooth, RFID, Data Link Layer Switching
5. NETWORK LAYER:Network Layer Design Issues, Routing Algorithms, Congestion Control Algorithms,Quality of Service, Internetworking, The Network Layer in the Internet.
Silver Oak College of Engineering and TechnologySubject: Fundamentals of Image Processing (181102) Mid Sem Syllabus 2015
Unit 1 Digital Image FundamentalsHuman visual system Image as a 2D dataImage representation – Gray scale and Color imagesImage sampling and quantization
Unit 2 Image enhancement in Spatial domain:Basic gray level Transformations Histogram ProcessingSpatial Filtering
Unit 3 Color Image Processing:Color Fundamental Color ModelsPseudocolor image processing
Unit 4 Image Segmentation:Edge based segmentationRegion based segmentation Region split and merge techniquesRegion growing by pixel aggregation optimal thresholding