Similar documents

For the mechanical system of figure shown above:

I.E.S-(Conv.)-1996 Some useful data:

I.E.S-(Conv.)-1992 Time Allowed : Three Hours


R.B.V.R.R. WOMEN S COLLEGE (AUTONOMOUS) Narayanaguda, Hyderabad. ELECTRONIC PRINCIPLES AND APPLICATIONS

(i) Determine the admittance parameters of the network of Fig 1 (f) and draw its - equivalent circuit.

Total No. of Questions : 40 ] [ Total No. of Printed Pages : 7. March, Time : 3 Hours 15 Minutes ] [ Max. Marks : 90

GOVERNMENT OF KARNATAKA KARNATAKA STATE PRE-UNIVERSITY EDUCATION EXAMINATION BOARD II YEAR PUC EXAMINATION MARCH-2013 SCHEME OF VALUATION

Chapter 3 Solution to Problems

Level 6 Graduate Diploma in Engineering Electronics and telecommunications

GCE AS. WJEC Eduqas GCE AS in ELECTRONICS ACCREDITED BY OFQUAL DESIGNATED BY QUALIFICATIONS WALES SAMPLE ASSESSMENT MATERIALS

1. Discuss in detail the Design Consideration of a Satellite Communication Systems. [16]

PESIT BANGALORE SOUTH CAMPUS BASIC ELECTRONICS

R.K.YADAV. 2. Explain with suitable sketch the operation of two-cavity Klystron amplifier. explain the concept of velocity and current modulations.

Antennas and Propagation

B.E. SEMESTER III (ELECTRICAL) SUBJECT CODE: X30902 Subject Name: Analog & Digital Electronics

GOVERNMENT OF KARNATAKA KARNATAKA STATE PRE-UNIVERSITY EDUCATION EXAMINATION BOARD II YEAR PUC EXAMINATION MARCH-2012 SCHEME OF VALUATION

GOVERNMENT OF KARNATAKA KARNATAKA STATE PRE-UNIVERSITY EDUCATION EXAMINATION BOARD II YEAR PUC EXAMINATION JULY-2012 SCHEME OF VALUATION

Lab Exercises. Exercise 1. Objective. Theory. Lab Exercises

Conventional Paper-II-2011 Part-1A

Q.P. Code : [ TURN OVER]

COMMUNICATION SYSTEMS

GATE 2000 Electronics and Communication Engineering

IES Digital Mock Test

Downloaded From All JNTU World

Frequently Asked Questions GE6252 BEEE UNIT I ELECTRICAL CIRCUITS AND MEASUREMENTS

Time: 3 hours Max Marks: 70 Answer any FIVE questions All questions carry equal marks *****

ECE Branch GATE Paper Q2. The trigonometric Fourier series for the waveform shown below contains

EXAMINATION FOR THE DEGREE OF B.E. and M.E. Semester

ECE Branch GATE Paper 2004

GATE: Electronics MCQs (Practice Test 1 of 13)

HOME ASSIGNMENT. Figure.Q3

COMMUNICATION SYSTEMS NCERT

EC ANTENNA AND WAVE PROPAGATION

UMAINE ECE Morse Code ROM and Transmitter at ISM Band Frequency

Chapter 15: Radio-Wave Propagation

Satellite Signals and Communications Principles. Dr. Ugur GUVEN Aerospace Engineer (P.hD)

ECE Branch GATE Paper (C) exp ( t ) sin (25t) (B) 4cos (20t + 3) + 2 sin (710t)

UNIVERSITY OF NAIROBI Radio Frequency Interference in Satellite Communications Systems

UNIT-1: CIRCUIT CONCEPT. capacitor. the market to purchase a resistor, apart from resistance what else will you quote so that the safety is ensured?

CHAPTER -15. Communication Systems

CS302 - Digital Logic Design Glossary By

ELECTRONIC CIRCUITS. Time: Three Hours Maximum Marks: 100

Time: 3 hours Max. Marks: 70 Answer any FIVE questions All questions carry equal marks

Downloaded From All JNTU World

Tracking, Telemetry and Command

Chapter 4 The RF Link

hij Teacher Resource Bank GCE Electronics Exemplar Examination Questions ELEC2 Further Electronics

SATELLIT COMMUNICATION

IENGINEERS- CONSULTANTS GATE QUESTION PAPER EC 2001

RF Engineering Training

Department of Electronics & Communication Engineering LAB MANUAL SUBJECT: DIGITAL COMMUNICATION LABORATORY [ECE324] (Branch: ECE)

4. Forward bias of a silicon P-N junction will produce a barrier voltage of approximately how many volts? A. 0.2 B. 0.3 C. 0.7 D. 0.

Department of Electronics & Telecommunication Engg. LAB MANUAL. B.Tech V Semester [ ] (Branch: ETE)

BSNL JTO (Telecom) Question bank.

SECTION 2 BROADBAND RF CHARACTERISTICS. 2.1 Frequency bands

ELE5 (JUN08ELE501) General CertiÞ cate of Education June 2008 Advanced Level Examination. ELECTRONICS Unit 5 Communications Systems

St.MARTIN S ENGINEERING COLLEGE Dhulapally, Secunderabad

GATE 2004 Electronics and Communication Engineering

3. (a) Derive an expression for the Hull cut off condition for cylindrical magnetron oscillator. (b) Write short notes on 8 cavity magnetron [8+8]

MICROWAVE ENGINEERING-II. Unit- I MICROWAVE MEASUREMENTS

Chapter 4: Practical Communication Systems. 18/09/2016 Nurul/DEE 3413/Practical Com System 1

EEG 816: Radiowave Propagation 2009

SATELLITE LINK DESIGN

Brief Course Description for Electrical Engineering Department study plan

Fan in: The number of inputs of a logic gate can handle.

Radio Frequency Electronics (RFE)

Antennas and Propagation. Chapter 5

Study of Factors which affect the Calculation of Co- Channel Interference in a Radio Link

GATE Question Paper & Answer Keys

6 Radio and RF. 6.1 Introduction. Wavelength (m) Frequency (Hz) Unit 6: RF and Antennas 1. Radio waves. X-rays. Microwaves. Light

Data Conversion Circuits & Modulation Techniques. Subhasish Chandra Assistant Professor Department of Physics Institute of Forensic Science, Nagpur

Antennas and Propagation. Chapter 5


Hours / 100 Marks Seat No.

Antennas & Propagation. CSG 250 Fall 2007 Rajmohan Rajaraman

Γ L = Γ S =

UNIT Derive the fundamental equation for free space propagation?

Number system: the system used to count discrete units is called number. Decimal system: the number system that contains 10 distinguished

Antennas and Propagation

Chapter-1: Introduction

ECE Branch GATE Paper 2002 SECTION A (75 MARKS )

RECOMMENDATION ITU-R S.1341*

UNIVERSITY OF BOLTON SCHOOL OF ENGINEERING BENG (HONS) ELECTRICAL & ELECTRONICS ENGINEERING SEMESTER TWO EXAMINATION 2017/2018

shorted to ground In an NPN transistor, the majority carriers in the base are:

Electronics Interview Questions

LOGIC DIAGRAM: HALF ADDER TRUTH TABLE: A B CARRY SUM. 2012/ODD/III/ECE/DE/LM Page No. 1

TOPIC 2 WAVEGUIDE AND COMPONENTS

ELEC2 (JUN15ELEC201) General Certificate of Education Advanced Subsidiary Examination June Further Electronics TOTAL. Time allowed 1 hour

PAPER-II I.E.S-(OBJ) of 15

INSTITUTE OF AERONAUTICAL ENGINEERING (Autonomous) Dundigal, Hyderabad

FIRSTRANKER. 1. (a) What are the advantages of the adjustable voltage regulators over the fixed

Laboratory Manual for EL-492

Item no. (Applied. Component) (Credit effect from

For the op amp circuit above, how is the output voltage related to the input voltage? = 20 k R 2

INTRODUCTION TO COMMUNICATION SYSTEMS AND TRANSMISSION MEDIA

Sai Nath University. Assignment For Diploma in E&C 4 th Sem.

Electronics Eingineering

High Speed Data Downlink for NSF Space Weather CubeSats

Transcription:

I.E.S-(Conv.)-2005 ELECTRONICS AND TELECOMMUNICATION ENGINEERING PAPER - II Time Allowed: 3 hours Maximum Marks : 200 Candidates should attempt Question No. 1 which is compulsory and FOUR more questions taking TWO each from Section A and Section B. Assume suitable data, if required. Some useful constants are given below : Electron charge : e = 1.6 19 Coulomb Electron mass : M = 9.1 31 kg Planck s constant : h = 6.625 34 J-s Velocity of light : c = 3 m/s Universal constant of gravitation : G = 6.66 11 m 3 /kg-s 2 Mass of earth : M = 5.997 24 kg Radius of earth : R = 6,37 km Permeability of vaccum : 0 = 4 7 H/m Permittivity of vaccum : 0 = 9 /36 F/m. 1. (a) V0 Determine the voltage gain Av for the amplifier circuit shown below. V i is the input Vi voltage between the gate terminal and ground. Neglect all capacitances. Find the gains of the OP-AMP circuit for the two states of the gain-select input. The bilateral switch in the ON state has negligible resistance.

(c) (d) (e) (f) (g) (h) The impulse response of a linear time-invariant (LTI) system is g(t). Determine the condition on bounded-output (BIBO) stable with zero initial conditions. An HF transmitter used in binary communication system has a peak power limited to 1 kw. The power loss in the channel is 60 db and the noise power at the receiver input is 4 watts. Find P e for non-coherent ASK and coherent PSK signalling schemes. Assume maximum signalling rate and equiprobable message bits. A single mode step index fibre with a core refractive index of 1.49 has a critical bending radius of.4 mm when illuminated with light at a wavelength of 1.3 microns. If the cutoff wavelength of the fibre is 1. microns, calculate its relative refractive index difference. The carrier frequency of an uplink is 6 GHz. The transmitting earth station EIRP is 0 dbw. The satellite receiver is db/k and the transmission losses are 0.6 db. Determine the CNR at the satellite receiver input for an earth station-to-satellite distance of 35,60 km. What is the measured frequency on a wave-guide slotted line if the distance between adjacent minima is 1.27 cm and the width dimension of the wave-guide is 2.26 cm? Specify the register contents and the flag status as the following instructions are executed. Also indicate the output at PORT O. A B S Z CY OO FF 0 1 0 Initial Contents MVI A, F2H MVI B, 7AH ADD B OUT PORT O HLT (i) Two identical silicon transistors with = 50, V BE = 0.7 V at T = 25 o C V CC = 20.7 V, R 1 = k and R C = 5 k are used in the circuit shown. (1) Find the currents I, I, I, I at T = 25 o C B B C C 1 2 1 2

(2) Find I C 2 at T = 175 o C when = 9 and V BE = 0.22 V. 4+4 (j) Draw the simplest possible logic diagram that implements the output of the logic diagram shown below : SECTION A 2. (a) Explain the operation of the Circuit shown below What type of signal does it produce? Determine the frequency of the output signal. How can we change the frequency of the signal to khz? The base width of a germanium pnp transistor is 5 microns. At room temperature and for a dc emitter current of 2 ma, determine (i) emitter resistance (ii) alpha cutoff frequency (iii) (iv) emitter diffusion capacitance, and the base transit time. Given for germanium : D p = 47 cm 2 /s

D n = 99 cm 2 /s n = 300 cm 2 /V-s p = 0 cm 2 /V-s 3. (a) (i) Consider a D flip-flop that triggers only on positive going transitions. Write its truth table and draw the output at Q for given D-input and clock waveforms as shown. (ii) How can a D flip-flop be implemented using a JK flip-flop? Consider the circuit shown. Initially all the flip-flop outputs X, Y and Z are in the 0 state before the clock pulses are applied. Determine and sketch the waveforms at Z, Y, X and W for eight cycles of the clock input. 4. (a) Construct a signal flow graph for the following equations and evaluate y 5 /y 1 : y 2 = a 12 y 1 + a 32 y 3 y 3 = a 23 y 2 + a 43 y 4 y 4 = a 24 y 2 + a 34 y 3 + a 44 y 4 y 5 = a 25 y 2 + a 45 y 4 The characteristic equation of a closed loop control system is s 3 + 3Ks 2 + (K+2)s + 4 = 0 Find the range of K for which the system is stable. Show all steps clearly. 5. (a) Construct a 4-input multiplexer using four 3-input AND gates, an OR-gate and three inverters. Show the input, output, select lines, and write a table showing the outputs for various select inputs. Consider a mechanical system as shown. Write the force equations and draw a fully labelled state diagram.

(c) An amplifier with an open loop voltage gain of 500 delivers W of output power at 5% second harmonic distortion when the input signal is 5 mv. If 20dB negative voltage is to remain W, determine (i) the required input signal strength, and (ii) the percent second harmonic distortion. SECTION B 6. (a) The transmitting antenna beam width of a geosynchronous satellite (3560 km from the surface of the earth) is 0.1 o. Assuming a circular spot coverage, determine the area of the spot illuminated by the antenna on the earth s surface. Define Fresnel Zone and derive an expression for the first Fresnel Zone radius. A microwave radio-link operating at GHz covers a distance of 0 km. Determine the mid path clearance needed to coincide with the first Fresnel Zone. 7. (a) A TWT operates on a beam current = 50mA, beam voltage = 2.9 kv, characteristic impedance of the helix = 6.0, Circuit length 40, frequency 9 GHz. Determine : (i) the gain parameter, (ii) the output power gain in db, (iii) the four propagation constants, and (iv) the wave equations for all modes in exponential form 4 2 The impedance matrix of a certain lumped element network is Z ij 2 4. Determine its scattering matrix. State the properties of the scattering matrix both in word statement and in mathematical form.. (a) Write a program to count from 0 to 20H with a delay of 0 ms between each count. After the count 20H, the counter should reset itself and repeat the sequence. Use register pair DE as a delay register. Show your calculations to set up 0 ms delay. The clock period is 3255 ns. Write instructions to clear the CY flag, to load a number FFH in register C and to add 01 to (C). If otherwise display the contents of register C. 9. (a) Compare TDM and FDM techniques (at least points, in the form of a table). Calculate the gain of an X-band open ended rectangular wave-guide radiator at a frequency of 9 GHz. The wave-guide dimensions are 0.9 0.4.

(c) (i) What is the difference between cycle stealing DMA and interleaved DMA? What is meant by block transfer DMA? (ii) A transmitter is sending ASCII-Coded data to a receiver with an Odd-Parity bit. Show the actual codes when the transmitter is sending the message HELLO. 5 5

2024 © hobbydocbox.com Privacy Policy | Terms of Service | Feedback