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GATE 2016 : Electronics and Communication Engineering

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GATE 2016 General Aptitude - GA Set-3 Q. 1 Q. 5 carry one mark each. Q.1 Based on the given statements, select the appropriate option with respect to grammar and usage. Statements (i) The height of Mr. X is 6 feet. (ii) The height of Mr. Y is 5 feet. (A) Mr. X is longer than Mr. Y. (B) Mr. X is more elongated than Mr. Y. (C) Mr. X is taller than Mr. Y. (D) Mr. X is lengthier than Mr. Y. Q.2 The students ___________ the teacher on teachers day for twenty years of dedicated teaching. (A) facilitated Q.3 (B) felicitated (C) fantasized (D) facillitated After India s cricket world cup victory in 1985, Shrotria who was playing both tennis and cricket till then, decided to concentrate only on cricket. And the rest is history. What does the underlined phrase mean in this context? (A) history will rest in peace (C) rest is well known Q.4 (B) rest is recorded in history books (D) rest is archaic Given (9 inches) = (0.25 yards) , which one of the following statements is TRUE? (A) 3 inches = 0.5 yards (C) 9 inches = 0.25 yards Q.5 (B) 9 inches = 1.5 yards (D) 81 inches = 0.0625 yards S, M, E and F are working in shifts in a team to finish a project. M works with twice the efficiency of others but for half as many days as E worked. S and M have 6 hour shifts in a day, whereas E and F have 12 hours shifts. What is the ratio of contribution of M to contribution of E in the project? (A) 1:1 (B) 1:2 (C) 1:4 (D) 2:1 1/3 GATE 2016 Q.10 General Aptitude - GA Set-3 A wire of length 340 mm is to be cut into two parts. One of the parts is to be made into a square and the other into a rectangle where sides are in the ratio of 1:2. What is the length of the side of the square (in mm) such that the combined area of the square and the rectangle is a MINIMUM? (A) 30 (B) 40 (C) 120 (D) 180 END OF THE QUESTION PAPER 3/3 GATE 2016 Electronics and Communication Engineering (Set 2) Q. 1 Q. 25 carry one mark each. Q.1 The value of for which the matrix = 3 9 6 2 7 4 4 13 9+ has zero as an eigenvalue is ________ Q.2 Consider the complex valued function ( ) = 2 + | | where is a complex variable. The value of for which the function ( ) is analytic is ________ Q.3 As varies from 1 to +3, which one of the following describes the behaviour of the function ( )= 3 + 1? (A) (B) (C) (D) Q.4 ( ( ( ( ) increases monotonically. ) increases, then decreases and increases again. ) decreases, then increases and decreases again. ) increases and then decreases. How many distinct values of (A) 1 (B) 2 satisfy the equation sin( ) = (C) 3 /2, where is in radians? (D) 4 or more Q.5 Consider the time-varying vector = 15 cos( ) + 5 sin( ) in Cartesian coordinates, where > 0 is a constant. When the vector magnitude | | is at its minimum value, the angle that makes with the axis (in degrees, such that 0 180) is ________ Q.6 In the circuit shown below, The value of (A) EC (2) is a constant voltage source and is a constant current load. that maximizes the power absorbed by the constant current load is (B) (C) (D) 1/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.7 The switch has been in position 1 for a long time and abruptly changes to position 2 at = 0. If time is in seconds, the capacitor voltage VC (in volts) for > 0 is given by (A) 4(1 exp( /0.5)) (B) 10 6 exp( /0.5) (C) 4(1 exp( /0.6)) (D) 10 6 exp( /0.6) Q.8 The figure shows an RLC circuit with a sinusoidal current source. At resonance, the ratio | |/| |, i.e., the ratio of the magnitudes of the inductor current phasor and the resistor current phasor, is ________ Q.9 The z-parameter matrix for the two-port network shown is 2 , 3+2 where the entries are in . Suppose Then the value of Q.10 EC (2) ( ) = + . (in ) equals ________ The energy of the signal ( )= sin( ) is ________ 2/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.11 The Ebers-Moll model of a BJT is valid (A) only in active mode (B) only in active and saturation modes (C) only in active and cut-off modes (D) in active, saturation and cut-off modes Q.12 A long-channel NMOS transistor is biased in the linear region with resistance. Which one of the following statements is NOT correct? =50 mV and is used as a (A) If the device width is increased, the resistance decreases. (B) If the threshold voltage is reduced, the resistance decreases. (C) If the device length is increased, the resistance increases. (D) If is increased, the resistance increases. Q.13 Assume that the diode in the figure has = 0.7 , but is otherwise ideal. The magnitude of the current i2 (in mA) is equal to ________ Q.14 Resistor R in the circuit below has been adjusted so that I = 1 mA. The bipolar transistors Q1 and Q2 are perfectly matched and have very high current gain, so their base currents are negligible. The / is 26 mV. supply voltage Vcc is 6 V. The thermal voltage The value of R 2 (in ) for which I2 =100 A is ________ EC (2) 3/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.15 Which one of the following statements is correct about an ac-coupled common-emitter amplifier operating in the mid-band region? (A) The device parasitic capacitances behave like open circuits, whereas coupling and bypass capacitances behave like short circuits. (B) The device parasitic capacitances, coupling capacitances and bypass capacitances behave like open circuits. (C) The device parasitic capacitances, coupling capacitances and bypass capacitances behave like short circuits. (D) The device parasitic capacitances behave like short circuits, whereas coupling and bypass capacitances behave like open circuits. Q.16 Transistor geometries in a CMOS inverter have been adjusted to meet the requirement for worst case charge and discharge times for driving a load capacitor C. This design is to be converted to that of a NOR circuit in the same technology, so that its worst case charge and discharge times while driving the same capacitor are similar. The channel lengths of all transistors are to be kept unchanged. Which one of the following statements is correct? (A) Widths of PMOS transistors should be doubled, while widths of NMOS transistors should be halved. (B) Widths of PMOS transistors should be doubled, while widths of NMOS transistors should not be changed. (C) Widths of PMOS transistors should be halved, while widths of NMOS transistors should not be changed. (D) Widths of PMOS transistors should be unchanged, while widths of NMOS transistors should be halved. Q.17 Assume that all the digital gates in the circuit shown in the figure are ideal, the resistor = 10 and the supply voltage is 5 . The D flip-flops D1, D2, D3, D4 and D5 are initialized with logic values 0,1,0,1 and 0, respectively. The clock has a 30% duty cycle. The average power dissipated (in mW) in the resistor EC (2) is ________ 4/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.18 A 4:1 multiplexer is to be used for generating the output carry of a full adder. A and B are the bits to be added while in is the input carry and out is the output carry. A and B are to be used as the select bits with A being the more significant select bit. Which one of the following statements correctly describes the choice of signals to be connected to the inputs I0 , I1 , I2 and I3 so that the output is Cout ? (A) I0 =0, I1 =Cin, I2 =Cin and I3 =1 (B) I0 =1, I1 =Cin, I2 =Cin and I3 =1 (C) I0 =Cin, I1 =0, I2 =1 and I3 =Cin (D) I0 =0, I1 =Cin, I2 =1 and I3 =Cin Q.19 The value of Q.20 ( )=( The response of the system at = 0 )( ) to the unit step input ( ) is ( ). is _________ The number and direction of encirclements around the point Nyquist plot of ( )= 1 4+2 1 + 0 in the complex plane by the is (A) zero. (C) one, clockwise. (B) one, anti-clockwise. (D) two, clockwise. Q.21 A discrete memoryless source has an alphabet { , , , } with corresponding probabilities , , , . The minimum required average codeword length in bits to represent this source for error-free reconstruction is ________ Q.22 A speech signal is sampled at 8 kHz and encoded into PCM format using 8 bits/sample. The PCM data is transmitted through a baseband channel via 4-level PAM. The minimum bandwidth (in kHz) required for transmission is ________ Q.23 A uniform and constant magnetic field = exists in the direction in vacuum. A particle of . mass with a small charge is introduced into this region with an initial velocity = + and are all non-zero, which one of the following describes the eventual Given that , , , trajectory of the particle? (A) Helical motion in the direction. (B) Circular motion in the plane. (C) Linear motion in the direction. (D) Linear motion in the direction. EC (2) 5/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.24 Let the electric field vector of a plane electromagnetic wave propagating in a homogenous medium ( ) be expressed as = , where the propagation constant is a function of the angular frequency . Assume that ( ) and are known and are real. From the information available, which one of the following CANNOT be determined? (A) (B) (C) (D) Q.25 The type of polarization of the wave. The group velocity of the wave. The phase velocity of the wave. The power flux through the = 0 plane. Light from free space is incident at an angle to the normal of the facet of a step-index large core optical fibre. The core and cladding refractive indices are = 1.5 and = 1.4, respectively. The maximum value of fibre is ________ (in degrees) for which the incident light will be guided in the core of the Q. 26 Q. 55 carry two marks each. Q.26 The ordinary differential equation = 3 + 2, with (0) = 1 is to be solved using the forward Euler method. The largest time step that can be used to solve the equation without making the numerical solution unstable is ________ Q.27 Suppose C is the closed curve defined as the circle + = 1 with C oriented anti-clockwise. The value of ( + ) over the curve C equals ________ Q.28 Two random variables and , The probability ( + EC (2) are distributed according to ( , )= ( + ), 0, 0 1, 0 otherwise. 1 1) is ________ 6/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.29 a 2 The matrix A = 0 0 The value of | Q.30 0 5 0 0 3 1 2 0 7 3 has det( ) = 100 and trace( ) = 14. 4 b | is ________ In the given circuit, each resistor has a value equal to 1 . and ? What is the equivalent resistance across the terminals (A) 1/6 Q.31 Q.32 (B) 1/3 (C) 9/20 (D) 8/15 In the circuit shown in the figure, the magnitude of the current (in amperes) through R is ___ ( )= A continuous-time filter with transfer function time filter with transfer function ( )= . . is converted to a discreteso that the impulse response of the continuous-time filter, sampled at 2 Hz, is identical at the sampling instants to the impulse response of the discrete time filter. The value of is ________ EC (2) 7/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.33 The Discrete Fourier Transform (DFT) of the 4-point sequence [ ] = { [0], [1], [ ] = { [0], [1], [2], [2], [3]} = {3, 2, 3, 4} is [3]} = {12, 2 , 0, 2 }. If X1[k] is the DFT of the 12-point sequence the value of Q.34 [ ] [ ] [ ] = {3, 0, 0, 2, 0, 0, 3, 0, 0, 4, 0, 0}, is ________ The switch S in the circuit shown has been closed for a long time. It is opened at time = 0 and remains open after that. Assume that the diode has zero reverse current and zero forward voltage drop. The steady state magnitude of the capacitor voltage Q.35 cm cm (B) 6.0 10 (D) 8.4 10 cm cm Consider avalanche breakdown in a silicon junction. The -region is uniformly doped with a . Assume that breakdown occurs when the magnitude of the electric field at any donor density point in the device becomes equal to the critical field . Assume to be independent of . junction is much smaller than the breakdown voltage, , the If the built-in voltage of the relationship between and is given by (A) (C) EC (2) (in volts) is ______ A voltage is applied across a MOS capacitor with metal gate and p-type silicon substrate at T=300 K. The inversion carrier density (in number of carriers per unit area) for = 0.8 V is 2 10 cm . For = 1.3 V, the inversion carrier density is 4 10 cm . What is the value of the inversion carrier density for = 1.8 V? (A) 4.5 10 (C) 7.2 10 Q.36 C = constant = constant (B) (D) / = constant = constant 8/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.37 Consider a region of silicon devoid of electrons and holes, with an ionized donor density of = 10 cm . The electric field at = 0 is 0 V/cm and the electric field at = is 50 kV/cm in the positive direction. Assume that the electric field is zero in the and directions at all points. Given = 1.6 10 nm is ________ Q.38 coulomb, = 8.85 10 F/cm, = 11.7 for silicon, the value of in Consider a long-channel NMOS transistor with source and body connected together. Assume that and . Given, the electron mobility is independent of = 0.5 A/V for = 50 mV and = 2 V, = 8 A/V for = 2 V and = 0 V, where = and = The threshold voltage (in volts) of the transistor is ________ Q.39 The figure shows a half-wave rectifier with a 475 F filter capacitor. The load draws a constant current = 1 A from the rectifier. The figure also shows the input voltage , the output voltage and the peak-to-peak voltage ripple on . The input voltage is a triangle-wave with an amplitude of 10 V and a period of 1 ms. The value of the ripple EC (2) (in volts) is ________ 9/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.40 In the opamp circuit shown, the Zener diodes 1 and 2 clamp the output voltage 5 V. The switch S is initially closed and is opened at time = 0. The time = Q.41 (in seconds) at which to +5 V or changes state is ________ An opamp has a finite open loop voltage gain of 100. Its input offset voltage Vios (= +5mV) is modeled as shown in the circuit below. The amplifier is ideal in all other respects. Vinput is 25 mV. The output voltage (in millivolts) is ________ Q.42 An 8 Kbyte ROM with an active low Chip Select input (CS) is to be used in an 8085 microprocessor based system. The ROM should occupy the address range 1000H to 2FFFH. The address lines are designated as to , where is the most significant address bit. Which one of the following logic expressions will generate the correct CS signal for this ROM? (A) (B) (C) (D) EC (2) + ( ( + + ( + + ) + ) ) + 10/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.43 In an N bit flash ADC, the analog voltage is fed simultaneously to 2 1 comparators. The output of the comparators is then encoded to a binary format using digital circuits. Assume that the analog voltage source V (whose output is being converted to digital format) has a source resistance of 75 as shown in the circuit diagram below and the input capacitance of each comparator is 8 pF. The input must settle to an accuracy of 1/2 LSB even for a full scale input change for proper conversion. Assume that the time taken by the thermometer to binary encoder is negligible. If the flash ADC has 8 bit resolution, which one of the following alternatives is closest to the maximum sampling rate ? (A) (B) (C) (D) Q.44 1 megasamples per second 6 megasamples per second 64 megasamples per second 256 megasamples per second The state transition diagram for a finite state machine with states A, B and C, and binary inputs X, Y and Z, is shown in the figure. Which one of the following statements is correct? (A) Transitions from State A are ambiguously defined. (B) Transitions from State B are ambiguously defined. (C) Transitions from State C are ambiguously defined. (D) All of the state transitions are defined unambiguously. EC (2) 11/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.45 In the feedback system shown below ( )= ( ) . The step response of the closed-loop system should have minimum settling time and have no overshoot. The required value of gain Q.46 to achieve this is ________ In the feedback system shown below ( )= ( )( )( ) . The positive value of for which the gain margin of the loop is exactly 0 dB and the phase margin of the loop is exactly zero degree is ________ Q.47 The asymptotic Bode phase plot of ( )= ( . )( )( ) , with and both positive, is shown below. The value of Q.48 EC (2) is ________ An information source generates a binary sequence { }. can take one of the two possible values 1 and +1 with equal probability and are statistically independent and identically distributed. This sequence is precoded to obtain another sequence { }, as = + . The sequence { } is used to modulate a pulse ( ) to generate the baseband signal 1, 0 ( )= ( ), where ( ) = 0, otherwise. in the power spectral density of ( ), then is ________ If there is a null at = 12/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.49 An ideal band-pass channel 500 Hz - 2000 Hz is deployed for communication. A modem is designed to transmit bits at the rate of 4800 bits/s using 16-QAM. The roll-off factor of a pulse with a raised cosine spectrum that utilizes the entire frequency band is ________ Q.50 Consider a random process ( ) = 3 ( ) ( )=4 process with autocorrelation 8, where ( ) is a zero mean stationary random . The power in ( ) is ________ | | Q.51 A binary communication system makes use of the symbols zero and one . There are channel errors. Consider the following events: : a "zero" is transmitted : a "one" is transmitted : a "zero" is received : a "one" is received ( ) = , ( | ) = , and ( | ) = . The The following probabilities are given: information in bits that you obtain when you learn which symbol has been received (while you know that a zero has been transmitted) is ________ Q.52 The parallel-plate capacitor shown in the figure has movable plates. The capacitor is charged so that the energy stored in it is when the plate separation is . The capacitor is then isolated electrically and the plates are moved such that the plate separation becomes 2 . At this new plate separation, what is the energy stored in the capacitor, neglecting fringing effects? (A) 2 Q.53 (B) 2 (C) (D) 2 A lossless microstrip transmission line consists of a trace of width . It is drawn over a practically infinite ground plane and is separated by a dielectric slab of thickness and relative permittivity > 1. The inductance per unit length and the characteristic impedance of this line are and , respectively. Which one of the following inequalities is always satisfied? (A) (B) < (C) EC (2) > > (D) < 13/14 GATE 2016 Electronics and Communication Engineering (Set 2) Q.54 A microwave circuit consisting of lossless transmission lines T and T is shown in the figure. The plot shows the magnitude of the input reflection coefficient as a function of frequency . The phase velocity of the signal in the transmission lines is 2 10 m/s. The length Q.55 (in meters) of T is ________ A positive charge is placed at = 0 between two infinite metal plates placed at = + respectively. The metal plates lie in the plane. = and at The charge is at rest at = 0, when a voltage + is applied to the plate at and voltage is applied to the plate at = + . Assume that the quantity of the charge is small enough that it does not perturb the field set up by the metal plates. The time that the charge takes to reach the right plate is proportional to (A) / (B) / (C) / (D) / END OF THE QUESTION PAPER EC (2) 14/14 Q. No 1 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 Type Section MCQ GA MCQ GA MCQ GA MCQ GA MCQ GA MCQ GA MCQ GA MCQ GA MCQ GA MCQ GA NAT EC-2 NAT EC-2 MCQ EC-2 MCQ EC-2 NAT EC-2 MCQ EC-2 MCQ EC-2 NAT EC-2 NAT EC-2 NAT EC-2 MCQ EC-2 MCQ EC-2 NAT EC-2 NAT EC-2 MCQ EC-2 MCQ EC-2 NAT EC-2 MCQ EC-2 NAT EC-2 MCQ EC-2 NAT EC-2 NAT EC-2 MCQ EC-2 MCQ EC-2 NAT EC-2 NAT EC-2 NAT EC-2 NAT EC-2 NAT EC-2 MCQ EC-2 NAT EC-2 NAT EC-2 NAT EC-2 NAT EC-2 MCQ EC-2 MCQ EC-2 NAT EC-2 NAT EC-2 NAT EC-2 Key Marks C 1 B 1 C 1 C 1 B 1 D 2 A 2 D 2 C 2 B 2 0.95 : 1.05 1 0.0 : 0.0 1 B 1 C 1 90 : 90 1 B 1 D 1 0.30 : 0.34 1 2.98 : 3.02 1 0.24 : 0.26 1 D 1 D 1 0.25 : 0.25 1 570 : 610 1 A 1 B 1 1.45 : 1.55 1 A 1 0.96 : 1.04 1 A 1 1.74 : 1.76 1 15.9 : 16.1 1 A 1 D 1 32:33 1 0.6 : 0.7 2 -0.03 : 0.03 2 0.32 : 0.34 2 2.9 : 3.1 2 D 2 4.9 : 5.1 2 0.04 : 0.06 2 5.9 : 6.1 2 99 : 101 2 B 2 C 2 30:34 2 1.18 : 1.22 2 1.9 : 2.2 2 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 NAT NAT MCQ MCQ MCQ NAT NAT NAT NAT NAT NAT NAT MCQ MCQ NAT MCQ EC-2 EC-2 EC-2 EC-2 EC-2 EC-2 EC-2 EC-2 EC-2 EC-2 EC-2 EC-2 EC-2 EC-2 EC-2 EC-2 0.7 : 0.9 400 : 425 A A C 0.95 : 1.05 59.5 : 60.5 0.95 : 1.05 -1.01 : -0.99 0.24 : 0.26 99 : 101 0.80 : 0.82 A B 0.09 : 0.11 C 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2

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