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Home » Gate Sample Papers » Electronics & Communication Engineering Sample Papers » GATE EC 1992 Electronics Question Paper

GATE EC 1992 Electronics Question Paper

   GATE EC - 1992 Electronics and Communications Engineering Question

PaperTime: 3 hours     Maximum Marks: 200  Part A: 80 Marks  Part B: 120 Marks 1.  This paper consists of two parts: �Part A" and �Part B". 2.  Part A contains 40 questions, each carrying 2 marks. 3.  Part B contains 15 questions, each carrying 8 marks. 4.  Read the instructions given at the beginning of each part carefully. 5.  Attempt ALL questions. 6.  There is no negative marking. PART  A 1.1  Relative to a given fixed tree of a network, (a)  Link currents form an independent set (b)  Branch voltage from an independent set (c)  Link currents from an independent set (d)  Branch voltage from an independent set 1.2  For a  2-port network to be reciprocal (a)     z z =    (b)       y y =    (c)       h h = -    (d)  0 AD BC - = 11 2 2                                     2 1 1 2                                    21 1 2 1.3  For  the  series  R-L  circuit  of  figure(a),  the  partial  fissure  diagram  at  a  certain frequency is shown in figure (b).The operating frequency of the circuit is: (a)  equal to the resonance frequency (b)  less than the resonance frequency (c)  greater than resonance frequency  (d)  not zero 1.4  For  the  compensated  attenuator  of  figure,  the  impulse  response  under  the R condition  R C R C =  is: 1.5  Of  the  four  networks,  N N N N of  figure,  the  networks  having  identical  , ,  and driving point functions are (a)     N N   (b)   and               N N   (c)   and               N N   (d)   and            N N    and 1.6  A linear time invariant system is described by the state variable model (a)  The system is completely controllable (b)  The system is not completely controllable (c)  The system is completely observable (d)  The system is not completely observable For this process (a)  the integral mode improves transient performance (b)  the integral mode improves steady state performance (c)  the derivative mode improves transient performance (d)  the derivative mode improves steady state performance 1.8  A linear discrete time system has the characteristic equation, z z = 0.81 0. The system (a)  is stable (b)  is marginally stable (c)  in unstable (d)  stability cannot be assessed from the given information 1.9  Bode  plot  of  a  stable  system  is  shown  in  figure.  The  transfer function of the system is _______ 1.10  Given  a  unity  feedback  system  with  open  loop  transfer  function, 1.11  A  semiconductor  is  irradiated  with  light  such  that  carriers  are  uniformly (d)  cannot be determined a s the given data is insufficient 1.12   A  P �  N junction in series with a 100  ohms resistor,  is forward biased  so that a current of 100 mA flows. If the voltage across this combination is instantaneously reversed to 10 V at t = 0, the reverse current that flows through the diode at t = 0 is approximately given by (a)  0 mA  (b)  100 mA  (c)  200 mA    (d) 50 mA 1.13  An infra red LED is usually fabricated from (a)  Ge  (b)  Si  (c)  Ga As  (d) Ga As P 1.14  In  a transistor  having  finite B, the forward bias across the base  emitter  junction is  kept  constant  and  the  reverse  bias  across  the  collector  base  junction  is increased.  Neglecting  the  leakage  across  the  collector  base  junction  and  the depletion  region  generating  current,  the  base  current  will  ____. (increase/decrease/remain constant). (a)  150 ohms  (b)  470 ohms  (c)  560 ohms  (d) 1 kilo ohm 1.17  An op.amp has an offset voltage of 1 mV and is ideal in all other respects. If this op.amp  is used in the circuit shown in figure, the output voltage will be (select the nearest value) V 1.18 If the transistors in figure, have high values of � and a of  0.65 volt, the current I, flowing through the 2 kilo ohms resistance will be ______. V1.19 The circuit of figure uses an ideal op amp. For small positive values of , the circuit works as (a)  a half wave rectifier (b)  a differentiator (c)  a logarithmic amplifier (d)  an exponential amplifier 1.20.  Assume that the operational amplifier in figure is ideal. The current I, through the 1 K ohm resistor is ____. 1.21.  The 6 V Zener diode shown in figure has zero zener resistance and a knee current of 5 mA. The minimum value of R so that the voltage across it does not fall below 6 Vis: (a)  1.2 K ohms (b)  80 ohms (c)  50 ohms (d)  0 ohms 1.22.  The logic realized by the circuit shown in figure is: (a)  F = A.C (b)  F = A + C (c)  F = B.C (d)  F = B + C 1.23.  Choose the correct statement(s) from the following: (a)  PROM contains a programmable AND array and a fixed OR array (b)  PLA contains a fixed AND array and a programmable OR array (c)  PROM contains a fixed AND array and a programmable OR array (d)  PLA contains a programmable AND array and a programmable OR array The  figure  shows  the  circuit  of  a  gate  in  the  Resistor  Transistor  Logic  (RTL) family. The circuit represents a (a)  NAND (b)  AND (c)  NOR (d)  OR 1.25.  The  initial  contents  of  the  4-bit  serial-in-parallel-out,  right-shift,  Shift  Register shown in figure, is 0110. After three clock pulses are applied, the contents of the Shift Register will be (a)  0 0 0 0 (b)  0 1 0 1 (c)  1 0 1 0 (d)  1 1 1 1 1.26.  In an 8085 microprocessor system with memory mapped I/O, (a)  I/O devices have 16 bit addresses (b)  I/O devices are accessed using IN and OUT instructions (c)  there can be a maximum of 256 input devices and 256 output devices (d)  arithmetic and logic operations can be directly performed with the I/O data. 1.27.  The following program is run on 8085 microprocessor: Memory Address in hex    Instruction 2000      LXI SP, 1000 2003        PUSH H 2004        PUSH D 2005      CALL 2050 2008        POP H 2009        HLT At the completion of execution of the program, the program Counter of the 8085 contains ________ and the Stack Pointer contains ________. 1.28.  Dual slope integration type Analog-to-digital converters provide (a)  higher speeds compa red to all other types of A/D converters (b)  very  good  accuracy  without  putting  extreme  requirements  on  component stability (c)  good rejection of power supply hum (d)  better resolution compared to all other types of A/D converters for the same number of bits. 1.29.  Which of the following signals is/are periodic? 1.31.  The maximum power efficiency of an AM modulator is (a)  25%   (b)  50%   (c)  75%  (d) 100% 1.33.  The  bit  stream  01001  is  differentially  encoded  using  "Delay  and  Ex  OR'  scheme for DPSK  transmission. Assuming the reference bit  as a "1' and assigning phases of "0' and  p  for 1's and 0's respectively, in the encoded sequence, the transmitted phase sequence becomes (a)      p 0 pp 0  (b)  0         pp 00  (c)  0         ppp 0  (d)       pp 0 pp 1.34.  Coherent demodulation of FSK signal can be effected using (a)  correlation receiver (b)  band pass filters and envelope detectors (c)  matched filter (d)  discriminator detection 1.35.  Source encoding in a data communication system is done in order to (a)  enhance the information transmission rate (b)  reduce the transmission errors (c)  conserve the transmitted power (d)  facilitate clock recovery in the receiver 1.36.  A transmission line whose characteristic impedance is a pure resistance (a)  must be a lossless line  (b)  must be a distortionless line (c)  may not be a lossless line  (d)  may not be distrotionless line 1.37.  Which of the following statements is/are correct? (a)  All the  resonant  frequencies  of a microwave  cavity  are harmonics of  a single frequency (b)  No two of the resonant frequencies of a microwave cavity are harmonics of a single frequency (c)  Resonant  frequencies  of  a  microwave  cavity  form  distinct  sets  of harmonically related frequency (d)  None  of  the  above,  because  a  microwave  cavity  does  not  resonate  at  a number of frequencies. 1.38.  Two dissimilar antennas having their maximum directivities equal, (a)  must have their beam-widths also equal (b)  cannot have their beam widths equal because they are dissimilar antennas (c)  may not necessarily have their maximum power gains equal (d)  must have their effective aperture a reas (capture areas) also equal. 1.39. The beam width between first null of uniform linear array of N equally spaced (element spacing = d), equally excited antennas is determined by (a)  N alone and not by d    (b)  d alone and not by N 1.40.  In a multi-cavity magnetron, strapping is employed primarily (a)  to prevent mode jumping (b)  to increase  the  separation  between  the  resonant  frequencies  in  the p mode and in the adjacent modes (c)  to reduce the back heating of the cathode (d)  to increase the output of the magnetron. PART B 2.  The  two-port  Darlington  impedance  booster  of  figure  uses  identical  transistors 3.   Block diagram model of a position control system is shown in figure. 5.  A P-N-P transistor shown in figure  has uniform  doping in  the emitter,  based and collector  regions, where  in the  doping concentrations are  10  per  cm  , 10   per  cm and   , 10  per  cm respectively. The minority carrier diffusion lengths in the emitter  and  the  base  regions  are  5  microns  and  100  microns,  respectively. Assuming  low  level  injection  conditions  and  using  the  law  of  the  junction, calculate the collector current  density and the base  current density and the base current  density  due  to  base  recombination.  [Suitable  approximations  may  be made if required]. In all the regions of the transistor  D cm = 8  per sec 6.  An  n-channel  MOSFET(T)  having  a  V of  2  V  [Threshold  voltage]  is  used  in  the circuit shown in figure. Initially, t is off an in steady  state. At time t = 0, a step voltage of magnitude  4V 7.    The  transistors  in  the  differential  amplifier  shown  in  figure  are  identical  with h r = = 100 and  25  ohms  at  1  mA collector  current.  The  circuit  has  a  Common 8.    Mode Rejection Ratio (CMRR) of 100. (a)  What is the differential gain   of the circuit? (b)  What is the common mode gain of the circuit? (c)  If  d.c.  voltage  of  1010  mV  and  990  mV  are  allied  to  inputs  1  and  2 respectively with reference to ground, what will be the output voltage  ? V 8.  Consider  the  circuit  shown  in  figure.  This  circuit  uses  an  ideal  operational amplifier.  Assuming  that  the  impedances  at  nodes  A  and  B  do  not  load  the preceding bridge circuit, calculate the output voltage  V 9.  A combinational circuit has three inputs A, B and C and an output F.F. is true only for the following input combinations? A is false and B is true A is false and C is true A, B and C are all false A, B and C are all true (a)  Write the truth table for F. use the convention, true = 1 and false = 0. (b)  Write the simplified expression for F as a Sum of Products. (c)  Write the simplified expression for F as a product of Sums. (d)  Draw  a  logic  circuit  implementation  of  F  using  the  minimum  number  of  2 input NAND gates only. 10.  A new clocked  X-Y flip flop is defined with two inputs, X and Y  is addition  to the clock input. The flip flop functions as follows: If XY=00, the flip flop changes stage with each clock pulse If XY=01, the flip flop state Q becomes 1 with the next clock pulse If XY=10, the flip flop state Q becomes 0 with the next clock pulse If XY=11, the change of state occurs with the clock pulse (a)  Write the Truth table for the X-Y flip flop (b)  Write the Excitation table for the X-Y flip flop (c)  It is  desired  to convert  a  J-K  flip  flop  into  the  X-Y  flip  flop  by adding  some external gates, if necessary. Draw a circuit to  show how  you  will  implement in X-Y flip flop using a J-K flip flop. 11.  A sinusoidal  signal  of  4  kHz  frequency is  used as  a  modulating  signal  for  an  FM and an  AM transmitter.  Both of the  transmitters  use the same amplitude for  the unmodulated carrier. The peak frequency deviation in the FM transmitter is set to four  times  the  bandwidth  of  the  AM  transmitter  and,  the  magnitudes  of  the spectral components at  f kHz f � = 4 carrier frequency  are  same for both of  the transmitters. Determine the modulation indices for the AM and FM transmitters. [If required use the values of the Besset function given below: 12.  Figure shows the memory circuit of an 8085 microprocessor. (a)  What is the total size of the memory in the circuit? (b)  What  are  the  beginning  and  ending  addresses  of  the  memory  in  Chip  1? (Give the answer in hexadecimal numbers) (c)  What are the beginning and ending addresses of the memory in Chip 2? (d)  Are the memory chips in the circuit ROM or RAM? (e)  How  will  you  replace  the  two  NAND  gates  in  the  circuit  with  one  3  to  8 decoder  without  changing  the  memory  size  or  the  memory  addresses? Assume  that  the  decoder  has  one  active  high  enable  E and  one  active  low enable  E    . 13.  (a)  A low pass signal x(t) has a spectrum given by Assuming that x(t) is ideally sampled at a sampling frequency of 3 kHz sketch. (i)  X f and , (ii)  the spectrum of the sampled signal for  3 . f kHz = (b)  An analog low pass signal of 4 kHz bandwidth is sampled at the Nyquist rate, subsequently  quantized  and  encoded  into  a  binary  PCM  wave  with  128 quantization  levels.  The  word  synchronization  is  effected  by  adding a synchronizing pulse at the end of  each code word. Determine the bit  ratio to the resulting PCM signal. 14.  A  received  binary  NRZ  signal  assumes  the  voltage  levels  of  500  millvolts  and  -500  millivolts  respectively  for  "1'  and  "0'  transmission  with  a  bit  rate  or  r bits/second.  The signal is corrupted by  additive  white Gaussian noise with  a two 2 sided  spectral  density  of    volts /Hz.  The  received  signal  is  processed  by  an integrate  and  Dump  circuit  in  every  bit  interval  and  compared  with  a  zero threshold to take a bit decision. Assuming  "1'  and  "0'  transmission  to  be  equally  likely,  determine  the  maximum value of r such that the bit error probability  =   10    - 15.  A  uniform  plane  wave  traveling  in free  space  along the  +z direction and  having its electric field along the x-direction, is normally incident on a thick brass sheet, infinite  in  extent  along  the  x-and y-directions).  The  electric field intensity  of  the wave is given by 16.  Elements  of  a  linear  array  of  three  equally  spaced  (element  spacing  =  0.5  ) vertical  mast  radiators,  are  excited  as  given  in  figure.  For  the  horizontal  plane radiation  pattern  of  the  array,  determine  the  direction  of  the  major  lobe  (main lobe or principal lobe), and calculate its half-power beam width in degrees.



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