Jntu e-books for ece

Can you provide me the jntu e-books for ece?

As per my searching I did not find any JNTU E-Book for ECE,
so for your reference I am providing you the B.Tech(ECE) Syllabus of B.Tech III Year - I Semester:

B.Tech III Year - I Semester subjects are:

Linear IC Applications
Antennas and Wave Propagation
Computer Architecture & Organization
Digital Communications
Digital Communications Lab
Digital IC Applications
Electronic Measurements and Instrumentation
I P R & Patents - I
IC Applications Lab

LINEAR IC APPLICATIONS
UNIT I
INTEGRATED CIRCUITS : Differential Amplifier- DC and AC
analysis of Dual input Balanced output Configuration, Properties
of other differential amplifier configuration (Dual Input
Unbalanced Output, Single Ended Input – Balanced/ Unbalanced
Output), DC Coupling and Cascade Differential Amplifier Stages,
Level translator.

UNIT II
Characteristics of OP-Amps, Integrated circuits-Types,
Classification, Package Types and temperature ranges, Power
supplies, Op-amp Block Diagram, ideal and practical Op-amp
specifications, DC and AC characteristics, 741 op-amp & its
features, FET input. Op-Amps, Op-Amp parameters &
Measurement, Input & Out put Off set voltages & currents, slew
rates, CMRR, PSRR, drift, Frequency Compensation technique.

UNIT III
LINEAR APPLICATIONS OF OP- AMPS : Inverting and Non-
inverting amplifier, Integrator and differentiator, Difference
amplifier, Instrumentation amplifier, AC amplifier, V to I, I to V
converters, Buffers.

UNIT IV
NON-LINEAR APPLICATIONS OF OP- AMPS: Non- Linear
function generation, Comparators, Multivibrators, Triangular and
Square wave generators, Log and Anti log amplifiers, Precision
rectifiers.

UNIT V
ACTIVE FILTERS: Introduction, Butter worth filters – 1st order, 2nd order LPF, HPF filters. Band pass, Band reject and Allpass filters.

UNIT VI
TIMERS & PHASE LOCKED LOOPS: Introduction to 555 timer,
functional diagram, Monostable and Astable operations and
applications, Schmitt Trigger. PLL - introduction, block schematic,
principles and description of individual blocks, 565 PLL,
Applications of PLL – frequency multiplication, frequency
translation, AM, FM & FSK demodulators. Applications of VCO
(566).

UNIT VII
D to A & A to D CONVERTERS : Introduction, basic DAC techniques, weighted resistor DAC, R-2R ladder DAC, inverted R-2R DAC, and IC 1408 DAC, Different types of ADCs – parallel comparator type ADC, counter type ADC, successive approximation ADC and dual slope ADC. DAC and ADC Specifications, Specifications AD 574 (12 bit ADC).

UNIT VIII
ANALOG MULTIPLIERS AND MODULATORS : Four
Quadrant multiplier, balanced modulator,IC1496,Applications of
analog switches and Multiplexers, Sample & Hold amplifiers.

COMPUTER ARCHITECTURE & ORGANAGATION
Unit 1:
Computer System:
Computer components, computer function, interconnection
structures, Bus interconnection, arithmetic and logic unit,
integer representation, integer arithmetic, fixed point
representation, floating point representation.

Unit 2:
Central Processing Unit:
Instruction Sets: Characteristics and addressing modes – Machine
instruction characteristics, Types of operands and operators,
addressing modes, instruction formats, Assembly language
Process Structure and Functions – Process organization, register
organization, instruction cycle, instruction pipelining.

Unit 3:
Control Unit and Micro Programmed Control:
Micro operations, control of the processor, hardwired
implementation, micro programmed control, micro
instruction sequencing, micro instruction execution,

Unit 4:
Computer Arithmetic:
Addition and subtraction, multiplication algorithms, division
algorithms, floating point arithmetic operations, decimal
arithmetic unit, decimal arithmetic operations.

Unit 5:
The Memory System:
Memory Hierarchy, main memory, auxiliary memory, associative
memory, cache memory and Cache organisation, virtual
memory, memory management hardware.

Unit 6:
Input Output Organization:
Peripheral devices, input-output interface, asynchronous data
transfer modes of transfer, priority interrupt, direct memory
access, input-output processor (IOP), serial communication.

Unit 7:
Parallel Organization:
Parallel Processing – use of multiprocessors, symmetric multi
processors, cache coherence and MESI protocol, multi-threading
and chip multiprocessors, non-uniform memory access computers,
vector computations.

Unit 8:
Multiprocessors – Characteristics of multiprocessors,
interconnection structures, inter processor arbitration, inter process
arbitration, interprocessor communication and synchronization.

DIGITAL IC APPLICATIONS
UNIT I
CMOS LOGIC: Introduction to logic families, CMOS logic,
CMOS steady state electrical behaviour, CMOS dynamic
electrical behaviour, CMOS logic families.

UNIT II
BIPOLAR LOGIC AND INTERFACING: Diode Logic, Bipolar
logic, Transistor logic, TTL families, CMOS/TTL
interfacing, low voltage CMOS logic and interfacing, Emitter
coupled logic, Comparison of logic families, Familiarity with
standard 74XX and CMOS 40XX series-ICs – Specifications.

UNIT III
COMBINATIONAL LOGIC DESIGN-I: Introduction, Design and
Analysis procedures, Decoders, encoders, three state devices,
multiplexers and demultiplexers, Code Converters, EX-OR
gates and parity circuits, comparators, adders & sub tractors,
Design considerations of the above combinational logic
circuits with relevant Digital ICs.

UNIT IV
COMBINATIONAL LOGIC DESIGN-II: Ripple Adder, Look
Ahead Carry Generator, Binary Parallel Adder, n-Bit Parallel
Subtractor, Binary Adder-Subtractor, ALUs, Combinational
multipliers, Barrel Shifter, Simple Floating-Point Encoder,
Cascading Comparators, Dual Priority Encoder, Design
considerations of the above combinational logic circuits with
relevant Digital ICs.

UNIT V
SEQUENTIAL LOGIC DESIGN-I: Introduction, The Basic
Bistable Element, Latches, and flipflops, Flip-Flop
Conversions, SSI Latches and Flip-Flops, Counters, Design
of Counters using Digital ICs, Counter applications,
Synchronous design methodology, Impediments to
synchronous design, Design considerations of the above
sequential logic circuits with relevant Digital ICs.

UNIT VI
SEQUENTIAL LOGIC DESIGN-II: MSI Registers, Shift
Registers, Modes of Operation of Shift Registers, Universal
Shift Registers, MSI Shift Registers, Ring Counter, Johnson
Counter, Basic sequential logic Design steps, Design of
Modulus N Synchronous Counters, Design considerations of
the above sequential logic circuits with relevant Digital ICs.

UNIT VII
PROGRAMMABLE LOGIC DEVICES (PLDs): Introduction,
Programmable Read Only Memory, Programmable Logic
Array, Programmable Array Logic Devices, Comparison
between PROM, PLA and PAL. Design considerations of
PLDs with relevant Digital ICs.

UNIT-VIII
MEMORIES: ROM: Internal structure, 2D-Decoding, Commercial
ROM types, timing and applications,. Static RAM: Internal
structure, SRAM timing, standard SRAMS, synchronous SRAMS,
Dynamic RAM: Internal structure, timing, synchronous DRAMs,
Familiarity with Component Data Sheets-Cypress CY6116,
CY7C1006, Specifications.

DIGITAL COMMUNICATIONS
UNIT I
PULSE DIGITAL MODULATION : Elements of digital
communication systems, advantages of digital
communication systems, Elements of PCM: Sampling,
Quantization & Coding, Quantization error, Compading in
PCM systems. Differential PCM systems (DPCM).

UNIT II
DELTA MODULATION : Delta modulation, its draw backs,
adaptive delta modulation, comparison of PCM and DM
systems, noise in PCM and DM systems.

UNIT III
DIGITAL MODULATION TECHNIQUES : Introduction, ASK,
FSK, PSK, DPSK, DEPSK, QPSK, M-ary PSK, ASK, FSK,
similarity of BFSK and BPSK.

UNIT IV
DATA TRANSMISSION : Base band signal receiver, probability
of error, the optimum filter, matched filter, probability of
error using matched filter, coherent reception, non-coherent
detection of FSK, calculation of error probability of ASK,
BPSK, BFSK,QPSK.

UNIT V
INFORMATION THEORY : Discrete messages, concept of
amount of information and its properties. Average
information, Entropy and its properties. Information rate,
Mutual information and its properties,

UNIT VI
SOURCE CODING : Introductions, Advantages, Shannon’s
theorem, Shanon-Fano coding, Huffman coding, efficiency
calculations, channel capacity of discrete and analog
Channels, capacity of a Gaussian channel, bandwidth –S/N
trade off.

UNIT VII
LINEAR BLOCK CODES : Introduction, Matrix description of
Linear Block codes, Error detection and error correction
capabilities of Linear block codes, Hamming codes, Binary
cyclic codes, Algebraic structure, encoding, syndrome
calculation, BCH Codes.

UNIT VIII
CONVOLUTION CODES : Introduction, encoding of convolution
codes, time domain approach, transform domain approach.
Graphical approach: state, tree and trellis diagram decoding
using Viterbi algorithm.


ANTENNAS AND WAVE PROPAGATION
UNIT I
ANTENNA FUNDAMENTALS : Introduction, Radiation
Mechanism – single wire, 2 wire, dipoles, Current
Distribution on a thin wire antenna . Antenna Parameters] –
Radiation Patterns, Patterns in Principal Planes, Main Lobe
and Side Lobes, Beamwidths, Beam Area, Radiation
Intensity, Beam Efficiency, Directivty, Gain and Resolution,
Antenna Apertures, Aperture Efficiency, Effective Hight.
Related Problems.

UNIT II
Thin Linear Wire Antennas: Retarded Potentials, Radiation from
Small Electric Dipole, Quarterwave Monopole and Halfwave
Dipole – Current Distributions, Evaluation of Field
Components, Power Radiated, Radiation Resistance,
Beamwidths, Directivity, Effective Area and Effective Hight.
Natural current distributions, fields and patterns of Thin
Linear Center-fed Antennas of different lengths, Radiation
Resistance at a point which is not current maximum. Antenna
Theorems – Applicability and Proofs for equivalence of
directional characteristics, Loop Antennas: Small Loops –
Field Components, Comparison of far fields of small loop
and short dipole, Concept of short magnetic dipole, D and Rr
relations for small loops.

UNIT III
ANTENNA ARRAYS : 2 element arrays – different cases,
Principle of Pattern Multiplication, N element Uniform
Linear Arrays – Broadside, Endfire Arrays, EFA with
Increased Directivity, Derivation of their characteristics and
comparison; Concept of Scanning Arrays. Directivity
Relations (no derivations). Related Problems. Binomial
Arrays, Effects of Uniform and Non uniform Amplitude
Distributions, Design Relations.

UNIT IV
NON-RESONANT RADIATORS : Introduction, Travelling wave
radiators – basic concepts, Longwire antennas – field strength
calculations and patterns, V-antennas, Rhombic Antennas
and Design Relations, Broadband Antennas: Helical
Antennas – Significance, Geometry, basic properties; Design
considerations for monofilar helical antennas in Axial Mode
and Normal Modes (Qualitative Treatment).

UNIT V
VHF, UHF AND MICROWAVE ANTENNAS - I : Arrays with
Parasitic Elements, Yagi – Uda Arrays, Folded Dipoles &
their characteristics. Reflector Antennas : Flat Sheet and
CornerReflectors. Paraboloidal Reflectors – Geometry,
characteristics,types of feeds, F/D Ratio, Spill Over, Back
Lobes, Aperture Blocking, Off-set Feeds, Cassegrainian
Feeds].

UNIT VI
VHF, UHF AND MICROWAVE ANTENNAS - II : Horn
Antennas – Types, Optimum Horns, Design Characteristics
of Pyramidal Horns; Lens Antennas – Geometry, Features,
Dielectric Lenses and Zoning, Applications. Antenna
Measurements – Patterns Required, Set Up, Distance
Criterion, Directivity and Gain Measurements (Comparison,
Absolute and 3-Antenna Methods).

UNIT VII
WAVE PROPAGATION - I: Concepts of Propagation – frequency
ranges and types of propagations. Ground Wave
Propagation–Characteristics, Parameters, Wave Tilt, Flat and
Spherical Earth Considerations. Sky Wave Propagation –
Formation of Ionospheric Layers and their Characteristics,
Mechanism of Reflection and Refraction, Critical Frequency,
MUF & Skip Distance – Calculations for flat and spherical
earth cases, Optimum Frequency, LUHF, Virtual Height,
Ionospheric Abnormalities, Ionospheric Absorption.

UNIT VIII
WAVE PROPAGATION – II: Fundamental Equation for Free-
Space Propagation, Basic Transmission Loss Calculations.
Space Wave Propagation – Mechanism, LOS and Radio
Horizon. Tropospheric Wave Propagation – Radius of
Curvature of path, Effective Earth’s Radius, Effect of Earth’s
Curvature, Field Strength Calculations, M-curves and Duct
Propagation, Tropospheric Scattering.

ELECTRONIC MEASUREMENTS AND INSTRUMENTATION
UNIT I
Performance characteristics of instruments, Static characteristics,
Accuracy, Resolution, Precision, Expected value, Error,
Sensitivity. Errors in Measurement, Dynamic
Characteristicsspeed of response, Fidelity, Lag and Dynamic
error. DC Voltimeters- Multirange, Range extension/Solid
state and differential voltmeters, AC voltmeters- multi range,
range extension, shunt. Thermocouple type RF ammeter,
Ohmmeters series type, shunt type, Multimeter for Voltage,
Current and resistance measurements.

UNIT II
Signal Generator- fixed and variable, AF oscillators, Standard and
AF sine and square wave signal generators, Function
Generators, Square pulse, Random noise, sweep, Arbitrary
waveform.

UNIT III
Wave Analyzers, Haromonic Distortion Analyzers, Spectrum
Analyzers, Digital Fourier Analyzers.

UNIT IV
Oscilloscopes CRT features, vertical amplifiers, horizontal
deflection system, sweep, trigger pulse, delay line, sync
selector circuits, simple CRO, triggered sweep CRO, Dual
beam CRO, Measurement of amplitude and frequency.

UNIT V
Dual trace oscilloscope, sampling oscilloscope, storage
oscilloscope, digital readout oscilloscope, digital storage
oscilloscope, Lissajous method of frequency measurement,
standard specifications of CRO, probes for CRO- Active &
Passive, attenuator type, Frequency counter, Time and Period
measurement.

UNIT VI
AC Bridges Measurement of inductance- Maxwell’s bridge,
Anderson bridge. Measurement of capacitance - Schearing
Bridge. Wheat stone bridge. Wien Bridge, Errors and
precautions in using bridges. Q-meter.

UNIT VII
Transducers- active & passive transducers : Resistance,
Capacitance, inductance; Strain gauges, LVDT, Piezo
Electric transducers, Resistance Thermometers,
Thermocouples, Thermistors, Sensistors.

UNIT VIII
Measurement of physical parameters force, pressure, velocity,
humidity, moisture, speed, proximity and displacement. Data
acquisition systems.

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Answered By StudyChaCha Member

I recently get admission in Electronics and Communication Engineering in Jawaharlal Nehru Technological University, so can you please tell me the names of text books of ECE of this University?

Jawaharlal Nehru Technological University, Hyderabad is a university, focusing on engineering, located in Hyderabad, Telangana, India. It was established in 1965.

JNTU ECE textbooks-

2-1 Sem Electronics and Communication Engineering

Electronic Device and Circuits
MEFA
Electrical Technology
Signals and Systems
Probability Theory and Stochastic Process
Network Analysis

2-2 Sem Electronics and Communication Engineering

Analog Communication
Electronic Circuit Analysis
Pulse and Digital Circuits
EMWTL
Control System
Switching Theory and Logic Design

3-1 Sem Electronics and Communication Engineering

Electronics Measurements and Instrumentation
Digital IC Application
Digital Communications
Linear IC Application
Antennas and Wave Propagation
Compute Organization and Architecture

3-2 Sem Electronics and Communication Engineering

Digital Signal Processing
Microprocessors and Microcontrollers
Microwave Engineering
MS
VLSI Design
Computer Networks

4-1 Sem Electronics and Communication Engineering

Optical Communication
Embedded Systems
Digital Image Processing
Radar Systems
Telecommunication Switching Systems
Analog IC Design
Object Oriented Programming

Contact address

Jawaharlal Nehru Technological University Hyderabad
Kukatpally
Hyderabad, Telangana 500085

Map location

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Answered By StudyChaCha Member