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ECE :: Exam Questions Paper

  1. A ramp input applied to a unity feedback system results in 5% steady state error. The type number and zero frequency gain of the system are respectively.

  2. A.
    1 and 20
    B.
    0 and 20
    C.
    0 and 1/20
    D.
    1 and 1/20

  3. A fair coil is tossed 10 times. What is the probability that ONLY the first two tosses will yield heads?


  4. The equation sin (z) = 10 has

  5. A.
    no real or complex solution
    B.
    exactly two distinct complex solutions
    C.
    a unique solution
    D.
    an infinite number of complex solutions

  6. Given If , then the value of K is

  7. A.
    1
    B.
    2
    C.
    3
    D.
    4

  8. Consider the Schmitt trigger circuit shown below. A triangular wave which goes from - 12 V to 12 V is applied to the inverting input of the op-amp. Assume that the output of the op-amp moves from +15 V to -15 V. The voltage at the non-inverting switches between

  9. A.
    -12 V and +12 V
    B.
    -7.5 V and +7.5 V
    C.
    -5 V and +5 V
    D.
    0 V and 5 V

  10. i1(t) for t > 0 is given by

  11. A.
    2.5 - 2.5e-2t
    B.
    2.5 - 1.25e-2t
    C.
    1.25 - 1.25e-2t
    D.
    None of these

  12. Find I in 4 Ω resistor.

  13. A.
    1 A
    B.
    0.5 A
    C.
    0.75 A
    D.
    0.95 A

  14. Which of the following Boolean Expression correctly represents the relation between P, Q, R and M1?

  15. A.
    M1 = (P OR Q) XOR R
    B.
    M1 = (P AND Q) XOR R
    C.
    M1 = (P NOR Q) XOR R
    D.
    M1 = (P XOR Q) XOR R

  16. A sequential multiplexer is connected as shown in figure. Each time the multiplexer receives the clock, it switches to the next channel from 6 to 1. If the input signals are :
    A = 10 cos 2p(4 x 103t)
    B = 15 cos 2p(5 x 103t)
    C = 20 cos 2p(6 x 103t)
    D = 10 cos 2p(10 x 103t)
    The minimum clock frequency should be __________ kHz.

  17. A.
    8 kHz
    B.
    50 kHz
    C.
    20 kHz
    D.
    10 kHz

  18. The Boolean function realized by the logic circuit shown is

  19. A.
    F = Σm(0, 1, 3, 5, 9, 10, 14)
    B.
    F = Σm(2, 3, 5, 7, 8, 12, 13)
    C.
    F = Σm(1, 2, 4, 5, 11, 14, 15)
    D.
    F = Σm(2, 3, 5, 7, 8, 9, 12)