Download GATE 2016 EC01 Electronics and Communication Engg Question Paper With Solution And Answer Key

Download GATE (Graduate Aptitude Test in Engineering) Last 10 Years 2020, 2019, 2018, 2017, 2016, 2015, 2014, 2013, 2012, 2011 and 2010 EC01 Electronics and Communication Engg Question Papers With Solutions And Answer Keys

GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


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GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
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GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


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GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


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GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 6/17
Q.15 Consider the oscillator circuit shown in the figure. The function of the network (shown in dotted
lines) consisting of the 100 k? resistor in series with the two diodes connected back-to-back is to:

(A) introduce amplitude stabilization by preventing the op amp from saturating and thus producing
sinusoidal oscillations of fixed amplitude
(B) introduce amplitude stabilization by forcing the opamp to swing between positive and negative
saturation and thus producing square wave oscillations of fixed amplitude
(C) introduce frequency stabilization by forcing the circuit to oscillate at a single frequency
(D) enable the loop gain to take on a value that produces square wave oscillations


FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 6/17
Q.15 Consider the oscillator circuit shown in the figure. The function of the network (shown in dotted
lines) consisting of the 100 k? resistor in series with the two diodes connected back-to-back is to:

(A) introduce amplitude stabilization by preventing the op amp from saturating and thus producing
sinusoidal oscillations of fixed amplitude
(B) introduce amplitude stabilization by forcing the opamp to swing between positive and negative
saturation and thus producing square wave oscillations of fixed amplitude
(C) introduce frequency stabilization by forcing the circuit to oscillate at a single frequency
(D) enable the loop gain to take on a value that produces square wave oscillations


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 7/17

Q.16 The block diagram of a frequency synthesizer consisting of a Phase Locked Loop (PLL) and a
divide-by- ?? counter (comprising ? 2 ,? 4, ? 8, ? 16 outputs) is sketched below. The
synthesizer is excited with a 5 kHz signal (Input 1). The free-running frequency of the PLL is set to
20 kHz. Assume that the commutator switch makes contacts repeatedly in the order 1-2-3-4.


The corresponding frequencies synthesized are:
(A) 10 kHz, 20 kHz, 40 kHz, 80 kHz
(B) 20 kHz, 40 kHz, 80 kHz, 160 kHz
(C) 80 kHz, 40 kHz, 20 kHz, 10 kHz
(D) 160 kHz, 80 kHz, 40 kHz, 20 kHz


Q.17 The output of the combinational circuit given below is




(A) A+B+C (B) A(B+C) (C) B(C+A) (D) C(A+B)

FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 6/17
Q.15 Consider the oscillator circuit shown in the figure. The function of the network (shown in dotted
lines) consisting of the 100 k? resistor in series with the two diodes connected back-to-back is to:

(A) introduce amplitude stabilization by preventing the op amp from saturating and thus producing
sinusoidal oscillations of fixed amplitude
(B) introduce amplitude stabilization by forcing the opamp to swing between positive and negative
saturation and thus producing square wave oscillations of fixed amplitude
(C) introduce frequency stabilization by forcing the circuit to oscillate at a single frequency
(D) enable the loop gain to take on a value that produces square wave oscillations


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 7/17

Q.16 The block diagram of a frequency synthesizer consisting of a Phase Locked Loop (PLL) and a
divide-by- ?? counter (comprising ? 2 ,? 4, ? 8, ? 16 outputs) is sketched below. The
synthesizer is excited with a 5 kHz signal (Input 1). The free-running frequency of the PLL is set to
20 kHz. Assume that the commutator switch makes contacts repeatedly in the order 1-2-3-4.


The corresponding frequencies synthesized are:
(A) 10 kHz, 20 kHz, 40 kHz, 80 kHz
(B) 20 kHz, 40 kHz, 80 kHz, 160 kHz
(C) 80 kHz, 40 kHz, 20 kHz, 10 kHz
(D) 160 kHz, 80 kHz, 40 kHz, 20 kHz


Q.17 The output of the combinational circuit given below is




(A) A+B+C (B) A(B+C) (C) B(C+A) (D) C(A+B)

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 8/17
Q.18 What is the voltage V
out
in the following circuit?




(A) 0 V (B) (|V
T
of PMOS| + V
T
of NMOS) / 2
(C) Switching threshold of inverter (D) V
DD


Q.19 Match the inferences X, Y, and Z, about a system, to the corresponding properties of the elements
of first column in Routh?s Table of the system characteristic equation.

X: The system is stable ?
Y: The system is unstable ?
Z: The test breaks down ?
P: ? when all elements are positive
Q: ? when any one element is zero
R: ? when there is a change in sign of coefficients

(A) X?P, Y?Q, Z?R (B) X?Q, Y?P, Z?R
(C) X?R, Y?Q, Z?P (D) X?P, Y?R, Z?Q


Q.20 A closed-loop control system is stable if the Nyquist plot of the corresponding open-loop transfer
function
(A) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane poles.
(B) encircles the s-plane point (0 ? j1) in the clockwise direction as many times as the number of
right-half s-plane poles.
(C) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of left-half s-plane poles.
(D) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane zeros.


Q.21 Consider binary data transmission at a rate of 56 kbps using baseband binary pulse amplitude
modulation (PAM) that is designed to have a raised-cosine spectrum. The transmission bandwidth
(in kHz) required for a roll-off factor of 0.25 is ________

?
V
DD

FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 6/17
Q.15 Consider the oscillator circuit shown in the figure. The function of the network (shown in dotted
lines) consisting of the 100 k? resistor in series with the two diodes connected back-to-back is to:

(A) introduce amplitude stabilization by preventing the op amp from saturating and thus producing
sinusoidal oscillations of fixed amplitude
(B) introduce amplitude stabilization by forcing the opamp to swing between positive and negative
saturation and thus producing square wave oscillations of fixed amplitude
(C) introduce frequency stabilization by forcing the circuit to oscillate at a single frequency
(D) enable the loop gain to take on a value that produces square wave oscillations


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 7/17

Q.16 The block diagram of a frequency synthesizer consisting of a Phase Locked Loop (PLL) and a
divide-by- ?? counter (comprising ? 2 ,? 4, ? 8, ? 16 outputs) is sketched below. The
synthesizer is excited with a 5 kHz signal (Input 1). The free-running frequency of the PLL is set to
20 kHz. Assume that the commutator switch makes contacts repeatedly in the order 1-2-3-4.


The corresponding frequencies synthesized are:
(A) 10 kHz, 20 kHz, 40 kHz, 80 kHz
(B) 20 kHz, 40 kHz, 80 kHz, 160 kHz
(C) 80 kHz, 40 kHz, 20 kHz, 10 kHz
(D) 160 kHz, 80 kHz, 40 kHz, 20 kHz


Q.17 The output of the combinational circuit given below is




(A) A+B+C (B) A(B+C) (C) B(C+A) (D) C(A+B)

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 8/17
Q.18 What is the voltage V
out
in the following circuit?




(A) 0 V (B) (|V
T
of PMOS| + V
T
of NMOS) / 2
(C) Switching threshold of inverter (D) V
DD


Q.19 Match the inferences X, Y, and Z, about a system, to the corresponding properties of the elements
of first column in Routh?s Table of the system characteristic equation.

X: The system is stable ?
Y: The system is unstable ?
Z: The test breaks down ?
P: ? when all elements are positive
Q: ? when any one element is zero
R: ? when there is a change in sign of coefficients

(A) X?P, Y?Q, Z?R (B) X?Q, Y?P, Z?R
(C) X?R, Y?Q, Z?P (D) X?P, Y?R, Z?Q


Q.20 A closed-loop control system is stable if the Nyquist plot of the corresponding open-loop transfer
function
(A) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane poles.
(B) encircles the s-plane point (0 ? j1) in the clockwise direction as many times as the number of
right-half s-plane poles.
(C) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of left-half s-plane poles.
(D) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane zeros.


Q.21 Consider binary data transmission at a rate of 56 kbps using baseband binary pulse amplitude
modulation (PAM) that is designed to have a raised-cosine spectrum. The transmission bandwidth
(in kHz) required for a roll-off factor of 0.25 is ________

?
V
DD

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 9/17
Q.22 A superheterodyne receiver operates in the frequency range of 58 MHz ? 68 MHz. The
intermediate frequency ?? ????
and local oscillator frequency ?? ????
are chosen such that ?? ????
? ?? ????
. It is
required that the image frequencies fall outside the 58 MHz ? 68 MHz band. The minimum
required ?? ????
(in MHz) is ________


Q.23 The amplitude of a sinusoidal carrier is modulated by a single sinusoid to obtain the amplitude
modulated signal ?? ( ?? ) = 5 cos 1600???? + 20 cos 1800???? + 5 cos 2000???? . The value of the
modulation index is __________



Q.24 Concentric spherical shells of radii 2 m, 4 m, and 8 m carry uniform surface charge densities of
20 nC/m
2
, ?4 nC/m
2
and ?
s
, respectively. The value of ?
s
(nC/m
2
) required to ensure that the
electric flux density ?? ? ? ?
= 0
? ?
at radius 10 m is _________


Q.25 The propagation constant of a lossy transmission line is (2 + ?? 5) m
?1
and its characteristic
impedance is (50 + ?? 0) ? at ?? = 10
6
rad s
?1
. The values of the line constants L, C, R, G are,
respectively,
(A) L = 200 ?H/m, C = 0.1 ?F/m, R = 50 ?/m, G = 0.02 S/m
(B) L = 250 ?H/m, C = 0.1 ?F/m, R = 100 ?/m, G = 0.04 S/m
(C) L = 200 ?H/m, C = 0.2 ?F/m, R = 100 ?/m, G = 0.02 S/m
(D) L = 250 ?H/m, C = 0.2 ?F/m, R = 50 ?/m, G = 0.04 S/m


Q. 26 ? Q. 55 carry two marks each.
Q.26
The integral
1
2 ?? ? ( ?? + ?? + 10) ?? ?? ?? ??
?? , where ?? denotes the disc: ?? 2
+ ?? 2
? 4, evaluates to_____


Q.27 A sequence x[n] is specified as

?
?? [ ?? ]
?? [ ?? ? 1]
? = ?
1 1
1 0
?
?? ?
1
0
? , for ?? ? 2.

The initial conditions are x[0] = 1, x[1] = 1, and x[n] = 0 for n < 0. The value of x[12] is ______


Q.28 In the following integral, the contour C encloses the points 2?j and ?2?j
?
1
2?? ?
?? ???? ?? ( ?? ? 2???? )
3
?? ?? ??
The value of the integral is ________



Q.29
The region specified by {( ?? , ?? , ?? ): 3 ? ?? ? 5,
?
8
? ?? ?
?
4
, 3 ? z ? 4.5} in cylindrical coordinates
has volume of _______
FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 6/17
Q.15 Consider the oscillator circuit shown in the figure. The function of the network (shown in dotted
lines) consisting of the 100 k? resistor in series with the two diodes connected back-to-back is to:

(A) introduce amplitude stabilization by preventing the op amp from saturating and thus producing
sinusoidal oscillations of fixed amplitude
(B) introduce amplitude stabilization by forcing the opamp to swing between positive and negative
saturation and thus producing square wave oscillations of fixed amplitude
(C) introduce frequency stabilization by forcing the circuit to oscillate at a single frequency
(D) enable the loop gain to take on a value that produces square wave oscillations


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 7/17

Q.16 The block diagram of a frequency synthesizer consisting of a Phase Locked Loop (PLL) and a
divide-by- ?? counter (comprising ? 2 ,? 4, ? 8, ? 16 outputs) is sketched below. The
synthesizer is excited with a 5 kHz signal (Input 1). The free-running frequency of the PLL is set to
20 kHz. Assume that the commutator switch makes contacts repeatedly in the order 1-2-3-4.


The corresponding frequencies synthesized are:
(A) 10 kHz, 20 kHz, 40 kHz, 80 kHz
(B) 20 kHz, 40 kHz, 80 kHz, 160 kHz
(C) 80 kHz, 40 kHz, 20 kHz, 10 kHz
(D) 160 kHz, 80 kHz, 40 kHz, 20 kHz


Q.17 The output of the combinational circuit given below is




(A) A+B+C (B) A(B+C) (C) B(C+A) (D) C(A+B)

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 8/17
Q.18 What is the voltage V
out
in the following circuit?




(A) 0 V (B) (|V
T
of PMOS| + V
T
of NMOS) / 2
(C) Switching threshold of inverter (D) V
DD


Q.19 Match the inferences X, Y, and Z, about a system, to the corresponding properties of the elements
of first column in Routh?s Table of the system characteristic equation.

X: The system is stable ?
Y: The system is unstable ?
Z: The test breaks down ?
P: ? when all elements are positive
Q: ? when any one element is zero
R: ? when there is a change in sign of coefficients

(A) X?P, Y?Q, Z?R (B) X?Q, Y?P, Z?R
(C) X?R, Y?Q, Z?P (D) X?P, Y?R, Z?Q


Q.20 A closed-loop control system is stable if the Nyquist plot of the corresponding open-loop transfer
function
(A) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane poles.
(B) encircles the s-plane point (0 ? j1) in the clockwise direction as many times as the number of
right-half s-plane poles.
(C) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of left-half s-plane poles.
(D) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane zeros.


Q.21 Consider binary data transmission at a rate of 56 kbps using baseband binary pulse amplitude
modulation (PAM) that is designed to have a raised-cosine spectrum. The transmission bandwidth
(in kHz) required for a roll-off factor of 0.25 is ________

?
V
DD

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 9/17
Q.22 A superheterodyne receiver operates in the frequency range of 58 MHz ? 68 MHz. The
intermediate frequency ?? ????
and local oscillator frequency ?? ????
are chosen such that ?? ????
? ?? ????
. It is
required that the image frequencies fall outside the 58 MHz ? 68 MHz band. The minimum
required ?? ????
(in MHz) is ________


Q.23 The amplitude of a sinusoidal carrier is modulated by a single sinusoid to obtain the amplitude
modulated signal ?? ( ?? ) = 5 cos 1600???? + 20 cos 1800???? + 5 cos 2000???? . The value of the
modulation index is __________



Q.24 Concentric spherical shells of radii 2 m, 4 m, and 8 m carry uniform surface charge densities of
20 nC/m
2
, ?4 nC/m
2
and ?
s
, respectively. The value of ?
s
(nC/m
2
) required to ensure that the
electric flux density ?? ? ? ?
= 0
? ?
at radius 10 m is _________


Q.25 The propagation constant of a lossy transmission line is (2 + ?? 5) m
?1
and its characteristic
impedance is (50 + ?? 0) ? at ?? = 10
6
rad s
?1
. The values of the line constants L, C, R, G are,
respectively,
(A) L = 200 ?H/m, C = 0.1 ?F/m, R = 50 ?/m, G = 0.02 S/m
(B) L = 250 ?H/m, C = 0.1 ?F/m, R = 100 ?/m, G = 0.04 S/m
(C) L = 200 ?H/m, C = 0.2 ?F/m, R = 100 ?/m, G = 0.02 S/m
(D) L = 250 ?H/m, C = 0.2 ?F/m, R = 50 ?/m, G = 0.04 S/m


Q. 26 ? Q. 55 carry two marks each.
Q.26
The integral
1
2 ?? ? ( ?? + ?? + 10) ?? ?? ?? ??
?? , where ?? denotes the disc: ?? 2
+ ?? 2
? 4, evaluates to_____


Q.27 A sequence x[n] is specified as

?
?? [ ?? ]
?? [ ?? ? 1]
? = ?
1 1
1 0
?
?? ?
1
0
? , for ?? ? 2.

The initial conditions are x[0] = 1, x[1] = 1, and x[n] = 0 for n < 0. The value of x[12] is ______


Q.28 In the following integral, the contour C encloses the points 2?j and ?2?j
?
1
2?? ?
?? ???? ?? ( ?? ? 2???? )
3
?? ?? ??
The value of the integral is ________



Q.29
The region specified by {( ?? , ?? , ?? ): 3 ? ?? ? 5,
?
8
? ?? ?
?
4
, 3 ? z ? 4.5} in cylindrical coordinates
has volume of _______
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 10/17

Q.30 The Laplace transform of the causal periodic square wave of period T shown in the figure below is




(A) ?? ( ?? ) =
1
1 + ?? ? ???? / 2
(B) ?? ( ?? ) =
1
?? ? 1 + ?? ?
????
2 ?

(C) ?? ( ?? ) =
1
?? ( 1 ? ?? ? ????
)
(D) ?? ( ?? ) =
1
1 ? ?? ? ????



Q.31 A network consisting of a finite number of linear resistor (R), inductor (L), and capacitor (C)
elements, connected all in series or all in parallel, is excited with a source of the form

? ?? ?? cos( ?? ?? 0
?? ) , where ?? ?? ? 0, ?? 0
? 0.
3
?? = 1


The source has nonzero impedance. Which one of the following is a possible form of the output
measured across a resistor in the network?
(A)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? ?? ?? 3
?? = 1
, ? ??
(B)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? 0, ? ?? 4
?? = 1

(C)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
3
?? = 1

(D)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
2
?? = 1



Q.32 A first-order low-pass filter of time constant T is excited with different input signals (with zero
initial conditions up to t = 0). Match the excitation signals X, Y, Z with the corresponding time
responses for t ? 0:

X: Impulse P: 1 ? ?? ? ?? / ??
Y: Unit step Q: t ? T(1 ? ?? ? ?? / ?? )
Z: Ramp R: ?? ? ?? / ??

(A) X?R, Y?Q, Z?P (B) X?Q, Y?P, Z?R
(C) X?R, Y?P, Z?Q (D) X?P, Y?R, Z?Q

FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 6/17
Q.15 Consider the oscillator circuit shown in the figure. The function of the network (shown in dotted
lines) consisting of the 100 k? resistor in series with the two diodes connected back-to-back is to:

(A) introduce amplitude stabilization by preventing the op amp from saturating and thus producing
sinusoidal oscillations of fixed amplitude
(B) introduce amplitude stabilization by forcing the opamp to swing between positive and negative
saturation and thus producing square wave oscillations of fixed amplitude
(C) introduce frequency stabilization by forcing the circuit to oscillate at a single frequency
(D) enable the loop gain to take on a value that produces square wave oscillations


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 7/17

Q.16 The block diagram of a frequency synthesizer consisting of a Phase Locked Loop (PLL) and a
divide-by- ?? counter (comprising ? 2 ,? 4, ? 8, ? 16 outputs) is sketched below. The
synthesizer is excited with a 5 kHz signal (Input 1). The free-running frequency of the PLL is set to
20 kHz. Assume that the commutator switch makes contacts repeatedly in the order 1-2-3-4.


The corresponding frequencies synthesized are:
(A) 10 kHz, 20 kHz, 40 kHz, 80 kHz
(B) 20 kHz, 40 kHz, 80 kHz, 160 kHz
(C) 80 kHz, 40 kHz, 20 kHz, 10 kHz
(D) 160 kHz, 80 kHz, 40 kHz, 20 kHz


Q.17 The output of the combinational circuit given below is




(A) A+B+C (B) A(B+C) (C) B(C+A) (D) C(A+B)

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 8/17
Q.18 What is the voltage V
out
in the following circuit?




(A) 0 V (B) (|V
T
of PMOS| + V
T
of NMOS) / 2
(C) Switching threshold of inverter (D) V
DD


Q.19 Match the inferences X, Y, and Z, about a system, to the corresponding properties of the elements
of first column in Routh?s Table of the system characteristic equation.

X: The system is stable ?
Y: The system is unstable ?
Z: The test breaks down ?
P: ? when all elements are positive
Q: ? when any one element is zero
R: ? when there is a change in sign of coefficients

(A) X?P, Y?Q, Z?R (B) X?Q, Y?P, Z?R
(C) X?R, Y?Q, Z?P (D) X?P, Y?R, Z?Q


Q.20 A closed-loop control system is stable if the Nyquist plot of the corresponding open-loop transfer
function
(A) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane poles.
(B) encircles the s-plane point (0 ? j1) in the clockwise direction as many times as the number of
right-half s-plane poles.
(C) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of left-half s-plane poles.
(D) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane zeros.


Q.21 Consider binary data transmission at a rate of 56 kbps using baseband binary pulse amplitude
modulation (PAM) that is designed to have a raised-cosine spectrum. The transmission bandwidth
(in kHz) required for a roll-off factor of 0.25 is ________

?
V
DD

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 9/17
Q.22 A superheterodyne receiver operates in the frequency range of 58 MHz ? 68 MHz. The
intermediate frequency ?? ????
and local oscillator frequency ?? ????
are chosen such that ?? ????
? ?? ????
. It is
required that the image frequencies fall outside the 58 MHz ? 68 MHz band. The minimum
required ?? ????
(in MHz) is ________


Q.23 The amplitude of a sinusoidal carrier is modulated by a single sinusoid to obtain the amplitude
modulated signal ?? ( ?? ) = 5 cos 1600???? + 20 cos 1800???? + 5 cos 2000???? . The value of the
modulation index is __________



Q.24 Concentric spherical shells of radii 2 m, 4 m, and 8 m carry uniform surface charge densities of
20 nC/m
2
, ?4 nC/m
2
and ?
s
, respectively. The value of ?
s
(nC/m
2
) required to ensure that the
electric flux density ?? ? ? ?
= 0
? ?
at radius 10 m is _________


Q.25 The propagation constant of a lossy transmission line is (2 + ?? 5) m
?1
and its characteristic
impedance is (50 + ?? 0) ? at ?? = 10
6
rad s
?1
. The values of the line constants L, C, R, G are,
respectively,
(A) L = 200 ?H/m, C = 0.1 ?F/m, R = 50 ?/m, G = 0.02 S/m
(B) L = 250 ?H/m, C = 0.1 ?F/m, R = 100 ?/m, G = 0.04 S/m
(C) L = 200 ?H/m, C = 0.2 ?F/m, R = 100 ?/m, G = 0.02 S/m
(D) L = 250 ?H/m, C = 0.2 ?F/m, R = 50 ?/m, G = 0.04 S/m


Q. 26 ? Q. 55 carry two marks each.
Q.26
The integral
1
2 ?? ? ( ?? + ?? + 10) ?? ?? ?? ??
?? , where ?? denotes the disc: ?? 2
+ ?? 2
? 4, evaluates to_____


Q.27 A sequence x[n] is specified as

?
?? [ ?? ]
?? [ ?? ? 1]
? = ?
1 1
1 0
?
?? ?
1
0
? , for ?? ? 2.

The initial conditions are x[0] = 1, x[1] = 1, and x[n] = 0 for n < 0. The value of x[12] is ______


Q.28 In the following integral, the contour C encloses the points 2?j and ?2?j
?
1
2?? ?
?? ???? ?? ( ?? ? 2???? )
3
?? ?? ??
The value of the integral is ________



Q.29
The region specified by {( ?? , ?? , ?? ): 3 ? ?? ? 5,
?
8
? ?? ?
?
4
, 3 ? z ? 4.5} in cylindrical coordinates
has volume of _______
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 10/17

Q.30 The Laplace transform of the causal periodic square wave of period T shown in the figure below is




(A) ?? ( ?? ) =
1
1 + ?? ? ???? / 2
(B) ?? ( ?? ) =
1
?? ? 1 + ?? ?
????
2 ?

(C) ?? ( ?? ) =
1
?? ( 1 ? ?? ? ????
)
(D) ?? ( ?? ) =
1
1 ? ?? ? ????



Q.31 A network consisting of a finite number of linear resistor (R), inductor (L), and capacitor (C)
elements, connected all in series or all in parallel, is excited with a source of the form

? ?? ?? cos( ?? ?? 0
?? ) , where ?? ?? ? 0, ?? 0
? 0.
3
?? = 1


The source has nonzero impedance. Which one of the following is a possible form of the output
measured across a resistor in the network?
(A)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? ?? ?? 3
?? = 1
, ? ??
(B)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? 0, ? ?? 4
?? = 1

(C)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
3
?? = 1

(D)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
2
?? = 1



Q.32 A first-order low-pass filter of time constant T is excited with different input signals (with zero
initial conditions up to t = 0). Match the excitation signals X, Y, Z with the corresponding time
responses for t ? 0:

X: Impulse P: 1 ? ?? ? ?? / ??
Y: Unit step Q: t ? T(1 ? ?? ? ?? / ?? )
Z: Ramp R: ?? ? ?? / ??

(A) X?R, Y?Q, Z?P (B) X?Q, Y?P, Z?R
(C) X?R, Y?P, Z?Q (D) X?P, Y?R, Z?Q

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 11/17
Q.33 An AC voltage source V = 10 sin(t) volts is applied to the following network. Assume that R
1
= 3
k?, R
2
= 6 k? and R
3
= 9 k?, and that the diode is ideal.




RMS current I
rms
(in mA) through the diode is ________




Q.34 In the circuit shown in the figure,
the maximum power (in watt) delivered to the resistor R is __________
2 k?
3 k? 10 k?
40 k? R v
0
100 v
0
5 V





Q.35 Consider the signal
?? [ ?? ] = 6 ?? [ ?? + 2] + 3 ?? [ ?? + 1] + 8 ?? [ ?? ] + 7 ?? [ ?? ? 1] + 4 ?? [ ?? ? 2] .
If ?? ( ?? ?? ??
) is the discrete-time Fourier transform of x[n] ,
then
1
?? ? ?? ? ?? ?? ??
? sin
2
(2 ?? )
?? ? ?? ?? ?? is equal to _________
I
rms
?
FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 6/17
Q.15 Consider the oscillator circuit shown in the figure. The function of the network (shown in dotted
lines) consisting of the 100 k? resistor in series with the two diodes connected back-to-back is to:

(A) introduce amplitude stabilization by preventing the op amp from saturating and thus producing
sinusoidal oscillations of fixed amplitude
(B) introduce amplitude stabilization by forcing the opamp to swing between positive and negative
saturation and thus producing square wave oscillations of fixed amplitude
(C) introduce frequency stabilization by forcing the circuit to oscillate at a single frequency
(D) enable the loop gain to take on a value that produces square wave oscillations


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 7/17

Q.16 The block diagram of a frequency synthesizer consisting of a Phase Locked Loop (PLL) and a
divide-by- ?? counter (comprising ? 2 ,? 4, ? 8, ? 16 outputs) is sketched below. The
synthesizer is excited with a 5 kHz signal (Input 1). The free-running frequency of the PLL is set to
20 kHz. Assume that the commutator switch makes contacts repeatedly in the order 1-2-3-4.


The corresponding frequencies synthesized are:
(A) 10 kHz, 20 kHz, 40 kHz, 80 kHz
(B) 20 kHz, 40 kHz, 80 kHz, 160 kHz
(C) 80 kHz, 40 kHz, 20 kHz, 10 kHz
(D) 160 kHz, 80 kHz, 40 kHz, 20 kHz


Q.17 The output of the combinational circuit given below is




(A) A+B+C (B) A(B+C) (C) B(C+A) (D) C(A+B)

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 8/17
Q.18 What is the voltage V
out
in the following circuit?




(A) 0 V (B) (|V
T
of PMOS| + V
T
of NMOS) / 2
(C) Switching threshold of inverter (D) V
DD


Q.19 Match the inferences X, Y, and Z, about a system, to the corresponding properties of the elements
of first column in Routh?s Table of the system characteristic equation.

X: The system is stable ?
Y: The system is unstable ?
Z: The test breaks down ?
P: ? when all elements are positive
Q: ? when any one element is zero
R: ? when there is a change in sign of coefficients

(A) X?P, Y?Q, Z?R (B) X?Q, Y?P, Z?R
(C) X?R, Y?Q, Z?P (D) X?P, Y?R, Z?Q


Q.20 A closed-loop control system is stable if the Nyquist plot of the corresponding open-loop transfer
function
(A) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane poles.
(B) encircles the s-plane point (0 ? j1) in the clockwise direction as many times as the number of
right-half s-plane poles.
(C) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of left-half s-plane poles.
(D) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane zeros.


Q.21 Consider binary data transmission at a rate of 56 kbps using baseband binary pulse amplitude
modulation (PAM) that is designed to have a raised-cosine spectrum. The transmission bandwidth
(in kHz) required for a roll-off factor of 0.25 is ________

?
V
DD

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 9/17
Q.22 A superheterodyne receiver operates in the frequency range of 58 MHz ? 68 MHz. The
intermediate frequency ?? ????
and local oscillator frequency ?? ????
are chosen such that ?? ????
? ?? ????
. It is
required that the image frequencies fall outside the 58 MHz ? 68 MHz band. The minimum
required ?? ????
(in MHz) is ________


Q.23 The amplitude of a sinusoidal carrier is modulated by a single sinusoid to obtain the amplitude
modulated signal ?? ( ?? ) = 5 cos 1600???? + 20 cos 1800???? + 5 cos 2000???? . The value of the
modulation index is __________



Q.24 Concentric spherical shells of radii 2 m, 4 m, and 8 m carry uniform surface charge densities of
20 nC/m
2
, ?4 nC/m
2
and ?
s
, respectively. The value of ?
s
(nC/m
2
) required to ensure that the
electric flux density ?? ? ? ?
= 0
? ?
at radius 10 m is _________


Q.25 The propagation constant of a lossy transmission line is (2 + ?? 5) m
?1
and its characteristic
impedance is (50 + ?? 0) ? at ?? = 10
6
rad s
?1
. The values of the line constants L, C, R, G are,
respectively,
(A) L = 200 ?H/m, C = 0.1 ?F/m, R = 50 ?/m, G = 0.02 S/m
(B) L = 250 ?H/m, C = 0.1 ?F/m, R = 100 ?/m, G = 0.04 S/m
(C) L = 200 ?H/m, C = 0.2 ?F/m, R = 100 ?/m, G = 0.02 S/m
(D) L = 250 ?H/m, C = 0.2 ?F/m, R = 50 ?/m, G = 0.04 S/m


Q. 26 ? Q. 55 carry two marks each.
Q.26
The integral
1
2 ?? ? ( ?? + ?? + 10) ?? ?? ?? ??
?? , where ?? denotes the disc: ?? 2
+ ?? 2
? 4, evaluates to_____


Q.27 A sequence x[n] is specified as

?
?? [ ?? ]
?? [ ?? ? 1]
? = ?
1 1
1 0
?
?? ?
1
0
? , for ?? ? 2.

The initial conditions are x[0] = 1, x[1] = 1, and x[n] = 0 for n < 0. The value of x[12] is ______


Q.28 In the following integral, the contour C encloses the points 2?j and ?2?j
?
1
2?? ?
?? ???? ?? ( ?? ? 2???? )
3
?? ?? ??
The value of the integral is ________



Q.29
The region specified by {( ?? , ?? , ?? ): 3 ? ?? ? 5,
?
8
? ?? ?
?
4
, 3 ? z ? 4.5} in cylindrical coordinates
has volume of _______
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 10/17

Q.30 The Laplace transform of the causal periodic square wave of period T shown in the figure below is




(A) ?? ( ?? ) =
1
1 + ?? ? ???? / 2
(B) ?? ( ?? ) =
1
?? ? 1 + ?? ?
????
2 ?

(C) ?? ( ?? ) =
1
?? ( 1 ? ?? ? ????
)
(D) ?? ( ?? ) =
1
1 ? ?? ? ????



Q.31 A network consisting of a finite number of linear resistor (R), inductor (L), and capacitor (C)
elements, connected all in series or all in parallel, is excited with a source of the form

? ?? ?? cos( ?? ?? 0
?? ) , where ?? ?? ? 0, ?? 0
? 0.
3
?? = 1


The source has nonzero impedance. Which one of the following is a possible form of the output
measured across a resistor in the network?
(A)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? ?? ?? 3
?? = 1
, ? ??
(B)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? 0, ? ?? 4
?? = 1

(C)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
3
?? = 1

(D)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
2
?? = 1



Q.32 A first-order low-pass filter of time constant T is excited with different input signals (with zero
initial conditions up to t = 0). Match the excitation signals X, Y, Z with the corresponding time
responses for t ? 0:

X: Impulse P: 1 ? ?? ? ?? / ??
Y: Unit step Q: t ? T(1 ? ?? ? ?? / ?? )
Z: Ramp R: ?? ? ?? / ??

(A) X?R, Y?Q, Z?P (B) X?Q, Y?P, Z?R
(C) X?R, Y?P, Z?Q (D) X?P, Y?R, Z?Q

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 11/17
Q.33 An AC voltage source V = 10 sin(t) volts is applied to the following network. Assume that R
1
= 3
k?, R
2
= 6 k? and R
3
= 9 k?, and that the diode is ideal.




RMS current I
rms
(in mA) through the diode is ________




Q.34 In the circuit shown in the figure,
the maximum power (in watt) delivered to the resistor R is __________
2 k?
3 k? 10 k?
40 k? R v
0
100 v
0
5 V





Q.35 Consider the signal
?? [ ?? ] = 6 ?? [ ?? + 2] + 3 ?? [ ?? + 1] + 8 ?? [ ?? ] + 7 ?? [ ?? ? 1] + 4 ?? [ ?? ? 2] .
If ?? ( ?? ?? ??
) is the discrete-time Fourier transform of x[n] ,
then
1
?? ? ?? ? ?? ?? ??
? sin
2
(2 ?? )
?? ? ?? ?? ?? is equal to _________
I
rms
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 12/17
Q.36 Consider a silicon p-n junction with a uniform acceptor doping concentration of 10
17
cm
?3
on the p-
side and a uniform donor doping concentration of 10
16
cm
?3
on the n-side. No external voltage is
applied to the diode. Given: kT/q = 26 mV, n
i
=1.5 ?10
10
cm
?3
, ?
Si
= 12?
0
, ?
0
= 8.85 ? 10
? 1 4
F/m,
and q = 1.6 ?10
?19
C.
The charge per unit junction area (nC cm
?2
) in the depletion region on the p-side is ___________


Q.37 Consider an n-channel metal oxide semiconductor field effect transistor (MOSFET) with a gate-to-
source voltage of 1.8 V. Assume that
?? ?? = 4, ?? ?? ?? ????
= 70 ? 10
? 6
AV
? 2
, the threshold voltage is
0.3V, and the channel length modulation parameter is 0.09 V
?1
. In the saturation region, the drain
conductance (in micro seimens) is ________


Q.38 The figure below shows the doping distribution in a p-type semiconductor in log scale.



The magnitude of the electric field (in kV/cm) in the semiconductor due to non uniform doping
is _________




Q.39 Consider a silicon sample at T = 300 K, with a uniform donor density ?? ??
= 5 ? 10
1 6
cm
? 3
,
illuminated uniformly such that the optical generation rate is ?? ?????? = 1.5 ? 10
2 0
cm
? 3
?? ? 1

throughout the sample. The incident radiation is turned off at ?? = 0. Assume low-level injection to
be valid and ignore surface effects. The carrier lifetimes are ?? ?? 0
= 0.1 ?s and ?? ?? 0
= 0.5 ?s.



The hole concentration at ?? = 0 and the hole concentration at ?? = 0.3 ?s, respectively, are
(A) 1.5 ? 10
1 3
cm
? 3
and 7.47 ? 10
1 1
cm
? 3

(B) 1.5 ? 10
1 3
cm
? 3
and 8.23 ? 10
1 1
cm
? 3

(C) 7.5 ? 10
1 3
cm
? 3
and 3.73 ? 10
1 1
cm
? 3

(D) 7.5 ? 10
1 3
cm
? 3
and 4.12 ? 10
1 1
cm
? 3


FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 6/17
Q.15 Consider the oscillator circuit shown in the figure. The function of the network (shown in dotted
lines) consisting of the 100 k? resistor in series with the two diodes connected back-to-back is to:

(A) introduce amplitude stabilization by preventing the op amp from saturating and thus producing
sinusoidal oscillations of fixed amplitude
(B) introduce amplitude stabilization by forcing the opamp to swing between positive and negative
saturation and thus producing square wave oscillations of fixed amplitude
(C) introduce frequency stabilization by forcing the circuit to oscillate at a single frequency
(D) enable the loop gain to take on a value that produces square wave oscillations


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 7/17

Q.16 The block diagram of a frequency synthesizer consisting of a Phase Locked Loop (PLL) and a
divide-by- ?? counter (comprising ? 2 ,? 4, ? 8, ? 16 outputs) is sketched below. The
synthesizer is excited with a 5 kHz signal (Input 1). The free-running frequency of the PLL is set to
20 kHz. Assume that the commutator switch makes contacts repeatedly in the order 1-2-3-4.


The corresponding frequencies synthesized are:
(A) 10 kHz, 20 kHz, 40 kHz, 80 kHz
(B) 20 kHz, 40 kHz, 80 kHz, 160 kHz
(C) 80 kHz, 40 kHz, 20 kHz, 10 kHz
(D) 160 kHz, 80 kHz, 40 kHz, 20 kHz


Q.17 The output of the combinational circuit given below is




(A) A+B+C (B) A(B+C) (C) B(C+A) (D) C(A+B)

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 8/17
Q.18 What is the voltage V
out
in the following circuit?




(A) 0 V (B) (|V
T
of PMOS| + V
T
of NMOS) / 2
(C) Switching threshold of inverter (D) V
DD


Q.19 Match the inferences X, Y, and Z, about a system, to the corresponding properties of the elements
of first column in Routh?s Table of the system characteristic equation.

X: The system is stable ?
Y: The system is unstable ?
Z: The test breaks down ?
P: ? when all elements are positive
Q: ? when any one element is zero
R: ? when there is a change in sign of coefficients

(A) X?P, Y?Q, Z?R (B) X?Q, Y?P, Z?R
(C) X?R, Y?Q, Z?P (D) X?P, Y?R, Z?Q


Q.20 A closed-loop control system is stable if the Nyquist plot of the corresponding open-loop transfer
function
(A) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane poles.
(B) encircles the s-plane point (0 ? j1) in the clockwise direction as many times as the number of
right-half s-plane poles.
(C) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of left-half s-plane poles.
(D) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane zeros.


Q.21 Consider binary data transmission at a rate of 56 kbps using baseband binary pulse amplitude
modulation (PAM) that is designed to have a raised-cosine spectrum. The transmission bandwidth
(in kHz) required for a roll-off factor of 0.25 is ________

?
V
DD

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 9/17
Q.22 A superheterodyne receiver operates in the frequency range of 58 MHz ? 68 MHz. The
intermediate frequency ?? ????
and local oscillator frequency ?? ????
are chosen such that ?? ????
? ?? ????
. It is
required that the image frequencies fall outside the 58 MHz ? 68 MHz band. The minimum
required ?? ????
(in MHz) is ________


Q.23 The amplitude of a sinusoidal carrier is modulated by a single sinusoid to obtain the amplitude
modulated signal ?? ( ?? ) = 5 cos 1600???? + 20 cos 1800???? + 5 cos 2000???? . The value of the
modulation index is __________



Q.24 Concentric spherical shells of radii 2 m, 4 m, and 8 m carry uniform surface charge densities of
20 nC/m
2
, ?4 nC/m
2
and ?
s
, respectively. The value of ?
s
(nC/m
2
) required to ensure that the
electric flux density ?? ? ? ?
= 0
? ?
at radius 10 m is _________


Q.25 The propagation constant of a lossy transmission line is (2 + ?? 5) m
?1
and its characteristic
impedance is (50 + ?? 0) ? at ?? = 10
6
rad s
?1
. The values of the line constants L, C, R, G are,
respectively,
(A) L = 200 ?H/m, C = 0.1 ?F/m, R = 50 ?/m, G = 0.02 S/m
(B) L = 250 ?H/m, C = 0.1 ?F/m, R = 100 ?/m, G = 0.04 S/m
(C) L = 200 ?H/m, C = 0.2 ?F/m, R = 100 ?/m, G = 0.02 S/m
(D) L = 250 ?H/m, C = 0.2 ?F/m, R = 50 ?/m, G = 0.04 S/m


Q. 26 ? Q. 55 carry two marks each.
Q.26
The integral
1
2 ?? ? ( ?? + ?? + 10) ?? ?? ?? ??
?? , where ?? denotes the disc: ?? 2
+ ?? 2
? 4, evaluates to_____


Q.27 A sequence x[n] is specified as

?
?? [ ?? ]
?? [ ?? ? 1]
? = ?
1 1
1 0
?
?? ?
1
0
? , for ?? ? 2.

The initial conditions are x[0] = 1, x[1] = 1, and x[n] = 0 for n < 0. The value of x[12] is ______


Q.28 In the following integral, the contour C encloses the points 2?j and ?2?j
?
1
2?? ?
?? ???? ?? ( ?? ? 2???? )
3
?? ?? ??
The value of the integral is ________



Q.29
The region specified by {( ?? , ?? , ?? ): 3 ? ?? ? 5,
?
8
? ?? ?
?
4
, 3 ? z ? 4.5} in cylindrical coordinates
has volume of _______
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 10/17

Q.30 The Laplace transform of the causal periodic square wave of period T shown in the figure below is




(A) ?? ( ?? ) =
1
1 + ?? ? ???? / 2
(B) ?? ( ?? ) =
1
?? ? 1 + ?? ?
????
2 ?

(C) ?? ( ?? ) =
1
?? ( 1 ? ?? ? ????
)
(D) ?? ( ?? ) =
1
1 ? ?? ? ????



Q.31 A network consisting of a finite number of linear resistor (R), inductor (L), and capacitor (C)
elements, connected all in series or all in parallel, is excited with a source of the form

? ?? ?? cos( ?? ?? 0
?? ) , where ?? ?? ? 0, ?? 0
? 0.
3
?? = 1


The source has nonzero impedance. Which one of the following is a possible form of the output
measured across a resistor in the network?
(A)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? ?? ?? 3
?? = 1
, ? ??
(B)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? 0, ? ?? 4
?? = 1

(C)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
3
?? = 1

(D)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
2
?? = 1



Q.32 A first-order low-pass filter of time constant T is excited with different input signals (with zero
initial conditions up to t = 0). Match the excitation signals X, Y, Z with the corresponding time
responses for t ? 0:

X: Impulse P: 1 ? ?? ? ?? / ??
Y: Unit step Q: t ? T(1 ? ?? ? ?? / ?? )
Z: Ramp R: ?? ? ?? / ??

(A) X?R, Y?Q, Z?P (B) X?Q, Y?P, Z?R
(C) X?R, Y?P, Z?Q (D) X?P, Y?R, Z?Q

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 11/17
Q.33 An AC voltage source V = 10 sin(t) volts is applied to the following network. Assume that R
1
= 3
k?, R
2
= 6 k? and R
3
= 9 k?, and that the diode is ideal.




RMS current I
rms
(in mA) through the diode is ________




Q.34 In the circuit shown in the figure,
the maximum power (in watt) delivered to the resistor R is __________
2 k?
3 k? 10 k?
40 k? R v
0
100 v
0
5 V





Q.35 Consider the signal
?? [ ?? ] = 6 ?? [ ?? + 2] + 3 ?? [ ?? + 1] + 8 ?? [ ?? ] + 7 ?? [ ?? ? 1] + 4 ?? [ ?? ? 2] .
If ?? ( ?? ?? ??
) is the discrete-time Fourier transform of x[n] ,
then
1
?? ? ?? ? ?? ?? ??
? sin
2
(2 ?? )
?? ? ?? ?? ?? is equal to _________
I
rms
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 12/17
Q.36 Consider a silicon p-n junction with a uniform acceptor doping concentration of 10
17
cm
?3
on the p-
side and a uniform donor doping concentration of 10
16
cm
?3
on the n-side. No external voltage is
applied to the diode. Given: kT/q = 26 mV, n
i
=1.5 ?10
10
cm
?3
, ?
Si
= 12?
0
, ?
0
= 8.85 ? 10
? 1 4
F/m,
and q = 1.6 ?10
?19
C.
The charge per unit junction area (nC cm
?2
) in the depletion region on the p-side is ___________


Q.37 Consider an n-channel metal oxide semiconductor field effect transistor (MOSFET) with a gate-to-
source voltage of 1.8 V. Assume that
?? ?? = 4, ?? ?? ?? ????
= 70 ? 10
? 6
AV
? 2
, the threshold voltage is
0.3V, and the channel length modulation parameter is 0.09 V
?1
. In the saturation region, the drain
conductance (in micro seimens) is ________


Q.38 The figure below shows the doping distribution in a p-type semiconductor in log scale.



The magnitude of the electric field (in kV/cm) in the semiconductor due to non uniform doping
is _________




Q.39 Consider a silicon sample at T = 300 K, with a uniform donor density ?? ??
= 5 ? 10
1 6
cm
? 3
,
illuminated uniformly such that the optical generation rate is ?? ?????? = 1.5 ? 10
2 0
cm
? 3
?? ? 1

throughout the sample. The incident radiation is turned off at ?? = 0. Assume low-level injection to
be valid and ignore surface effects. The carrier lifetimes are ?? ?? 0
= 0.1 ?s and ?? ?? 0
= 0.5 ?s.



The hole concentration at ?? = 0 and the hole concentration at ?? = 0.3 ?s, respectively, are
(A) 1.5 ? 10
1 3
cm
? 3
and 7.47 ? 10
1 1
cm
? 3

(B) 1.5 ? 10
1 3
cm
? 3
and 8.23 ? 10
1 1
cm
? 3

(C) 7.5 ? 10
1 3
cm
? 3
and 3.73 ? 10
1 1
cm
? 3

(D) 7.5 ? 10
1 3
cm
? 3
and 4.12 ? 10
1 1
cm
? 3


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 13/17
Q.40 An ideal opamp has voltage sources V
1,
V
3,
V
5,
?, V
N-1
connected to the non-inverting input and V
2,
V
4,
V
6,
?, V
N
connected to the inverting input as shown in the figure below (+V
CC
= 15 volt,
?V
CC
= ?15 volt). The voltages V
1,
V
2,
V
3,
V
4,
V
5,
V
6,
?

are 1, ? 1/2, 1/3, ?1/4, 1/5, ?1/6, ? volt,
respectively. As N approaches infinity, the output voltage (in volt) is ___________




Q.41 A p-i-n photodiode of responsivity 0.8A/W is connected to the inverting input of an ideal opamp as
shown in the figure, +Vcc = 15 V, ?Vcc = ?15V, Load resistor R
L
= 10 k?. If 10 ?W of power is
incident on the photodiode, then the value of the photocurrent (in ?A) through the load is ________





FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 6/17
Q.15 Consider the oscillator circuit shown in the figure. The function of the network (shown in dotted
lines) consisting of the 100 k? resistor in series with the two diodes connected back-to-back is to:

(A) introduce amplitude stabilization by preventing the op amp from saturating and thus producing
sinusoidal oscillations of fixed amplitude
(B) introduce amplitude stabilization by forcing the opamp to swing between positive and negative
saturation and thus producing square wave oscillations of fixed amplitude
(C) introduce frequency stabilization by forcing the circuit to oscillate at a single frequency
(D) enable the loop gain to take on a value that produces square wave oscillations


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 7/17

Q.16 The block diagram of a frequency synthesizer consisting of a Phase Locked Loop (PLL) and a
divide-by- ?? counter (comprising ? 2 ,? 4, ? 8, ? 16 outputs) is sketched below. The
synthesizer is excited with a 5 kHz signal (Input 1). The free-running frequency of the PLL is set to
20 kHz. Assume that the commutator switch makes contacts repeatedly in the order 1-2-3-4.


The corresponding frequencies synthesized are:
(A) 10 kHz, 20 kHz, 40 kHz, 80 kHz
(B) 20 kHz, 40 kHz, 80 kHz, 160 kHz
(C) 80 kHz, 40 kHz, 20 kHz, 10 kHz
(D) 160 kHz, 80 kHz, 40 kHz, 20 kHz


Q.17 The output of the combinational circuit given below is




(A) A+B+C (B) A(B+C) (C) B(C+A) (D) C(A+B)

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 8/17
Q.18 What is the voltage V
out
in the following circuit?




(A) 0 V (B) (|V
T
of PMOS| + V
T
of NMOS) / 2
(C) Switching threshold of inverter (D) V
DD


Q.19 Match the inferences X, Y, and Z, about a system, to the corresponding properties of the elements
of first column in Routh?s Table of the system characteristic equation.

X: The system is stable ?
Y: The system is unstable ?
Z: The test breaks down ?
P: ? when all elements are positive
Q: ? when any one element is zero
R: ? when there is a change in sign of coefficients

(A) X?P, Y?Q, Z?R (B) X?Q, Y?P, Z?R
(C) X?R, Y?Q, Z?P (D) X?P, Y?R, Z?Q


Q.20 A closed-loop control system is stable if the Nyquist plot of the corresponding open-loop transfer
function
(A) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane poles.
(B) encircles the s-plane point (0 ? j1) in the clockwise direction as many times as the number of
right-half s-plane poles.
(C) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of left-half s-plane poles.
(D) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane zeros.


Q.21 Consider binary data transmission at a rate of 56 kbps using baseband binary pulse amplitude
modulation (PAM) that is designed to have a raised-cosine spectrum. The transmission bandwidth
(in kHz) required for a roll-off factor of 0.25 is ________

?
V
DD

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 9/17
Q.22 A superheterodyne receiver operates in the frequency range of 58 MHz ? 68 MHz. The
intermediate frequency ?? ????
and local oscillator frequency ?? ????
are chosen such that ?? ????
? ?? ????
. It is
required that the image frequencies fall outside the 58 MHz ? 68 MHz band. The minimum
required ?? ????
(in MHz) is ________


Q.23 The amplitude of a sinusoidal carrier is modulated by a single sinusoid to obtain the amplitude
modulated signal ?? ( ?? ) = 5 cos 1600???? + 20 cos 1800???? + 5 cos 2000???? . The value of the
modulation index is __________



Q.24 Concentric spherical shells of radii 2 m, 4 m, and 8 m carry uniform surface charge densities of
20 nC/m
2
, ?4 nC/m
2
and ?
s
, respectively. The value of ?
s
(nC/m
2
) required to ensure that the
electric flux density ?? ? ? ?
= 0
? ?
at radius 10 m is _________


Q.25 The propagation constant of a lossy transmission line is (2 + ?? 5) m
?1
and its characteristic
impedance is (50 + ?? 0) ? at ?? = 10
6
rad s
?1
. The values of the line constants L, C, R, G are,
respectively,
(A) L = 200 ?H/m, C = 0.1 ?F/m, R = 50 ?/m, G = 0.02 S/m
(B) L = 250 ?H/m, C = 0.1 ?F/m, R = 100 ?/m, G = 0.04 S/m
(C) L = 200 ?H/m, C = 0.2 ?F/m, R = 100 ?/m, G = 0.02 S/m
(D) L = 250 ?H/m, C = 0.2 ?F/m, R = 50 ?/m, G = 0.04 S/m


Q. 26 ? Q. 55 carry two marks each.
Q.26
The integral
1
2 ?? ? ( ?? + ?? + 10) ?? ?? ?? ??
?? , where ?? denotes the disc: ?? 2
+ ?? 2
? 4, evaluates to_____


Q.27 A sequence x[n] is specified as

?
?? [ ?? ]
?? [ ?? ? 1]
? = ?
1 1
1 0
?
?? ?
1
0
? , for ?? ? 2.

The initial conditions are x[0] = 1, x[1] = 1, and x[n] = 0 for n < 0. The value of x[12] is ______


Q.28 In the following integral, the contour C encloses the points 2?j and ?2?j
?
1
2?? ?
?? ???? ?? ( ?? ? 2???? )
3
?? ?? ??
The value of the integral is ________



Q.29
The region specified by {( ?? , ?? , ?? ): 3 ? ?? ? 5,
?
8
? ?? ?
?
4
, 3 ? z ? 4.5} in cylindrical coordinates
has volume of _______
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 10/17

Q.30 The Laplace transform of the causal periodic square wave of period T shown in the figure below is




(A) ?? ( ?? ) =
1
1 + ?? ? ???? / 2
(B) ?? ( ?? ) =
1
?? ? 1 + ?? ?
????
2 ?

(C) ?? ( ?? ) =
1
?? ( 1 ? ?? ? ????
)
(D) ?? ( ?? ) =
1
1 ? ?? ? ????



Q.31 A network consisting of a finite number of linear resistor (R), inductor (L), and capacitor (C)
elements, connected all in series or all in parallel, is excited with a source of the form

? ?? ?? cos( ?? ?? 0
?? ) , where ?? ?? ? 0, ?? 0
? 0.
3
?? = 1


The source has nonzero impedance. Which one of the following is a possible form of the output
measured across a resistor in the network?
(A)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? ?? ?? 3
?? = 1
, ? ??
(B)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? 0, ? ?? 4
?? = 1

(C)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
3
?? = 1

(D)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
2
?? = 1



Q.32 A first-order low-pass filter of time constant T is excited with different input signals (with zero
initial conditions up to t = 0). Match the excitation signals X, Y, Z with the corresponding time
responses for t ? 0:

X: Impulse P: 1 ? ?? ? ?? / ??
Y: Unit step Q: t ? T(1 ? ?? ? ?? / ?? )
Z: Ramp R: ?? ? ?? / ??

(A) X?R, Y?Q, Z?P (B) X?Q, Y?P, Z?R
(C) X?R, Y?P, Z?Q (D) X?P, Y?R, Z?Q

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 11/17
Q.33 An AC voltage source V = 10 sin(t) volts is applied to the following network. Assume that R
1
= 3
k?, R
2
= 6 k? and R
3
= 9 k?, and that the diode is ideal.




RMS current I
rms
(in mA) through the diode is ________




Q.34 In the circuit shown in the figure,
the maximum power (in watt) delivered to the resistor R is __________
2 k?
3 k? 10 k?
40 k? R v
0
100 v
0
5 V





Q.35 Consider the signal
?? [ ?? ] = 6 ?? [ ?? + 2] + 3 ?? [ ?? + 1] + 8 ?? [ ?? ] + 7 ?? [ ?? ? 1] + 4 ?? [ ?? ? 2] .
If ?? ( ?? ?? ??
) is the discrete-time Fourier transform of x[n] ,
then
1
?? ? ?? ? ?? ?? ??
? sin
2
(2 ?? )
?? ? ?? ?? ?? is equal to _________
I
rms
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 12/17
Q.36 Consider a silicon p-n junction with a uniform acceptor doping concentration of 10
17
cm
?3
on the p-
side and a uniform donor doping concentration of 10
16
cm
?3
on the n-side. No external voltage is
applied to the diode. Given: kT/q = 26 mV, n
i
=1.5 ?10
10
cm
?3
, ?
Si
= 12?
0
, ?
0
= 8.85 ? 10
? 1 4
F/m,
and q = 1.6 ?10
?19
C.
The charge per unit junction area (nC cm
?2
) in the depletion region on the p-side is ___________


Q.37 Consider an n-channel metal oxide semiconductor field effect transistor (MOSFET) with a gate-to-
source voltage of 1.8 V. Assume that
?? ?? = 4, ?? ?? ?? ????
= 70 ? 10
? 6
AV
? 2
, the threshold voltage is
0.3V, and the channel length modulation parameter is 0.09 V
?1
. In the saturation region, the drain
conductance (in micro seimens) is ________


Q.38 The figure below shows the doping distribution in a p-type semiconductor in log scale.



The magnitude of the electric field (in kV/cm) in the semiconductor due to non uniform doping
is _________




Q.39 Consider a silicon sample at T = 300 K, with a uniform donor density ?? ??
= 5 ? 10
1 6
cm
? 3
,
illuminated uniformly such that the optical generation rate is ?? ?????? = 1.5 ? 10
2 0
cm
? 3
?? ? 1

throughout the sample. The incident radiation is turned off at ?? = 0. Assume low-level injection to
be valid and ignore surface effects. The carrier lifetimes are ?? ?? 0
= 0.1 ?s and ?? ?? 0
= 0.5 ?s.



The hole concentration at ?? = 0 and the hole concentration at ?? = 0.3 ?s, respectively, are
(A) 1.5 ? 10
1 3
cm
? 3
and 7.47 ? 10
1 1
cm
? 3

(B) 1.5 ? 10
1 3
cm
? 3
and 8.23 ? 10
1 1
cm
? 3

(C) 7.5 ? 10
1 3
cm
? 3
and 3.73 ? 10
1 1
cm
? 3

(D) 7.5 ? 10
1 3
cm
? 3
and 4.12 ? 10
1 1
cm
? 3


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 13/17
Q.40 An ideal opamp has voltage sources V
1,
V
3,
V
5,
?, V
N-1
connected to the non-inverting input and V
2,
V
4,
V
6,
?, V
N
connected to the inverting input as shown in the figure below (+V
CC
= 15 volt,
?V
CC
= ?15 volt). The voltages V
1,
V
2,
V
3,
V
4,
V
5,
V
6,
?

are 1, ? 1/2, 1/3, ?1/4, 1/5, ?1/6, ? volt,
respectively. As N approaches infinity, the output voltage (in volt) is ___________




Q.41 A p-i-n photodiode of responsivity 0.8A/W is connected to the inverting input of an ideal opamp as
shown in the figure, +Vcc = 15 V, ?Vcc = ?15V, Load resistor R
L
= 10 k?. If 10 ?W of power is
incident on the photodiode, then the value of the photocurrent (in ?A) through the load is ________





GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 14/17
Q.42 Identify the circuit below.




(A) Binary to Gray code converter (B) Binary to XS3 converter
(C) Gray to Binary converter (D) XS3 to Binary converter


Q.43 The functionality implemented by the circuit below is




(A) 2-to-1 multiplexer (B) 4-to-1 multiplexer
(C) 7-to-1 multiplexer (D) 6-to-1 multiplexer


FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 6/17
Q.15 Consider the oscillator circuit shown in the figure. The function of the network (shown in dotted
lines) consisting of the 100 k? resistor in series with the two diodes connected back-to-back is to:

(A) introduce amplitude stabilization by preventing the op amp from saturating and thus producing
sinusoidal oscillations of fixed amplitude
(B) introduce amplitude stabilization by forcing the opamp to swing between positive and negative
saturation and thus producing square wave oscillations of fixed amplitude
(C) introduce frequency stabilization by forcing the circuit to oscillate at a single frequency
(D) enable the loop gain to take on a value that produces square wave oscillations


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 7/17

Q.16 The block diagram of a frequency synthesizer consisting of a Phase Locked Loop (PLL) and a
divide-by- ?? counter (comprising ? 2 ,? 4, ? 8, ? 16 outputs) is sketched below. The
synthesizer is excited with a 5 kHz signal (Input 1). The free-running frequency of the PLL is set to
20 kHz. Assume that the commutator switch makes contacts repeatedly in the order 1-2-3-4.


The corresponding frequencies synthesized are:
(A) 10 kHz, 20 kHz, 40 kHz, 80 kHz
(B) 20 kHz, 40 kHz, 80 kHz, 160 kHz
(C) 80 kHz, 40 kHz, 20 kHz, 10 kHz
(D) 160 kHz, 80 kHz, 40 kHz, 20 kHz


Q.17 The output of the combinational circuit given below is




(A) A+B+C (B) A(B+C) (C) B(C+A) (D) C(A+B)

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 8/17
Q.18 What is the voltage V
out
in the following circuit?




(A) 0 V (B) (|V
T
of PMOS| + V
T
of NMOS) / 2
(C) Switching threshold of inverter (D) V
DD


Q.19 Match the inferences X, Y, and Z, about a system, to the corresponding properties of the elements
of first column in Routh?s Table of the system characteristic equation.

X: The system is stable ?
Y: The system is unstable ?
Z: The test breaks down ?
P: ? when all elements are positive
Q: ? when any one element is zero
R: ? when there is a change in sign of coefficients

(A) X?P, Y?Q, Z?R (B) X?Q, Y?P, Z?R
(C) X?R, Y?Q, Z?P (D) X?P, Y?R, Z?Q


Q.20 A closed-loop control system is stable if the Nyquist plot of the corresponding open-loop transfer
function
(A) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane poles.
(B) encircles the s-plane point (0 ? j1) in the clockwise direction as many times as the number of
right-half s-plane poles.
(C) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of left-half s-plane poles.
(D) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane zeros.


Q.21 Consider binary data transmission at a rate of 56 kbps using baseband binary pulse amplitude
modulation (PAM) that is designed to have a raised-cosine spectrum. The transmission bandwidth
(in kHz) required for a roll-off factor of 0.25 is ________

?
V
DD

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 9/17
Q.22 A superheterodyne receiver operates in the frequency range of 58 MHz ? 68 MHz. The
intermediate frequency ?? ????
and local oscillator frequency ?? ????
are chosen such that ?? ????
? ?? ????
. It is
required that the image frequencies fall outside the 58 MHz ? 68 MHz band. The minimum
required ?? ????
(in MHz) is ________


Q.23 The amplitude of a sinusoidal carrier is modulated by a single sinusoid to obtain the amplitude
modulated signal ?? ( ?? ) = 5 cos 1600???? + 20 cos 1800???? + 5 cos 2000???? . The value of the
modulation index is __________



Q.24 Concentric spherical shells of radii 2 m, 4 m, and 8 m carry uniform surface charge densities of
20 nC/m
2
, ?4 nC/m
2
and ?
s
, respectively. The value of ?
s
(nC/m
2
) required to ensure that the
electric flux density ?? ? ? ?
= 0
? ?
at radius 10 m is _________


Q.25 The propagation constant of a lossy transmission line is (2 + ?? 5) m
?1
and its characteristic
impedance is (50 + ?? 0) ? at ?? = 10
6
rad s
?1
. The values of the line constants L, C, R, G are,
respectively,
(A) L = 200 ?H/m, C = 0.1 ?F/m, R = 50 ?/m, G = 0.02 S/m
(B) L = 250 ?H/m, C = 0.1 ?F/m, R = 100 ?/m, G = 0.04 S/m
(C) L = 200 ?H/m, C = 0.2 ?F/m, R = 100 ?/m, G = 0.02 S/m
(D) L = 250 ?H/m, C = 0.2 ?F/m, R = 50 ?/m, G = 0.04 S/m


Q. 26 ? Q. 55 carry two marks each.
Q.26
The integral
1
2 ?? ? ( ?? + ?? + 10) ?? ?? ?? ??
?? , where ?? denotes the disc: ?? 2
+ ?? 2
? 4, evaluates to_____


Q.27 A sequence x[n] is specified as

?
?? [ ?? ]
?? [ ?? ? 1]
? = ?
1 1
1 0
?
?? ?
1
0
? , for ?? ? 2.

The initial conditions are x[0] = 1, x[1] = 1, and x[n] = 0 for n < 0. The value of x[12] is ______


Q.28 In the following integral, the contour C encloses the points 2?j and ?2?j
?
1
2?? ?
?? ???? ?? ( ?? ? 2???? )
3
?? ?? ??
The value of the integral is ________



Q.29
The region specified by {( ?? , ?? , ?? ): 3 ? ?? ? 5,
?
8
? ?? ?
?
4
, 3 ? z ? 4.5} in cylindrical coordinates
has volume of _______
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 10/17

Q.30 The Laplace transform of the causal periodic square wave of period T shown in the figure below is




(A) ?? ( ?? ) =
1
1 + ?? ? ???? / 2
(B) ?? ( ?? ) =
1
?? ? 1 + ?? ?
????
2 ?

(C) ?? ( ?? ) =
1
?? ( 1 ? ?? ? ????
)
(D) ?? ( ?? ) =
1
1 ? ?? ? ????



Q.31 A network consisting of a finite number of linear resistor (R), inductor (L), and capacitor (C)
elements, connected all in series or all in parallel, is excited with a source of the form

? ?? ?? cos( ?? ?? 0
?? ) , where ?? ?? ? 0, ?? 0
? 0.
3
?? = 1


The source has nonzero impedance. Which one of the following is a possible form of the output
measured across a resistor in the network?
(A)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? ?? ?? 3
?? = 1
, ? ??
(B)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? 0, ? ?? 4
?? = 1

(C)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
3
?? = 1

(D)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
2
?? = 1



Q.32 A first-order low-pass filter of time constant T is excited with different input signals (with zero
initial conditions up to t = 0). Match the excitation signals X, Y, Z with the corresponding time
responses for t ? 0:

X: Impulse P: 1 ? ?? ? ?? / ??
Y: Unit step Q: t ? T(1 ? ?? ? ?? / ?? )
Z: Ramp R: ?? ? ?? / ??

(A) X?R, Y?Q, Z?P (B) X?Q, Y?P, Z?R
(C) X?R, Y?P, Z?Q (D) X?P, Y?R, Z?Q

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 11/17
Q.33 An AC voltage source V = 10 sin(t) volts is applied to the following network. Assume that R
1
= 3
k?, R
2
= 6 k? and R
3
= 9 k?, and that the diode is ideal.




RMS current I
rms
(in mA) through the diode is ________




Q.34 In the circuit shown in the figure,
the maximum power (in watt) delivered to the resistor R is __________
2 k?
3 k? 10 k?
40 k? R v
0
100 v
0
5 V





Q.35 Consider the signal
?? [ ?? ] = 6 ?? [ ?? + 2] + 3 ?? [ ?? + 1] + 8 ?? [ ?? ] + 7 ?? [ ?? ? 1] + 4 ?? [ ?? ? 2] .
If ?? ( ?? ?? ??
) is the discrete-time Fourier transform of x[n] ,
then
1
?? ? ?? ? ?? ?? ??
? sin
2
(2 ?? )
?? ? ?? ?? ?? is equal to _________
I
rms
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 12/17
Q.36 Consider a silicon p-n junction with a uniform acceptor doping concentration of 10
17
cm
?3
on the p-
side and a uniform donor doping concentration of 10
16
cm
?3
on the n-side. No external voltage is
applied to the diode. Given: kT/q = 26 mV, n
i
=1.5 ?10
10
cm
?3
, ?
Si
= 12?
0
, ?
0
= 8.85 ? 10
? 1 4
F/m,
and q = 1.6 ?10
?19
C.
The charge per unit junction area (nC cm
?2
) in the depletion region on the p-side is ___________


Q.37 Consider an n-channel metal oxide semiconductor field effect transistor (MOSFET) with a gate-to-
source voltage of 1.8 V. Assume that
?? ?? = 4, ?? ?? ?? ????
= 70 ? 10
? 6
AV
? 2
, the threshold voltage is
0.3V, and the channel length modulation parameter is 0.09 V
?1
. In the saturation region, the drain
conductance (in micro seimens) is ________


Q.38 The figure below shows the doping distribution in a p-type semiconductor in log scale.



The magnitude of the electric field (in kV/cm) in the semiconductor due to non uniform doping
is _________




Q.39 Consider a silicon sample at T = 300 K, with a uniform donor density ?? ??
= 5 ? 10
1 6
cm
? 3
,
illuminated uniformly such that the optical generation rate is ?? ?????? = 1.5 ? 10
2 0
cm
? 3
?? ? 1

throughout the sample. The incident radiation is turned off at ?? = 0. Assume low-level injection to
be valid and ignore surface effects. The carrier lifetimes are ?? ?? 0
= 0.1 ?s and ?? ?? 0
= 0.5 ?s.



The hole concentration at ?? = 0 and the hole concentration at ?? = 0.3 ?s, respectively, are
(A) 1.5 ? 10
1 3
cm
? 3
and 7.47 ? 10
1 1
cm
? 3

(B) 1.5 ? 10
1 3
cm
? 3
and 8.23 ? 10
1 1
cm
? 3

(C) 7.5 ? 10
1 3
cm
? 3
and 3.73 ? 10
1 1
cm
? 3

(D) 7.5 ? 10
1 3
cm
? 3
and 4.12 ? 10
1 1
cm
? 3


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 13/17
Q.40 An ideal opamp has voltage sources V
1,
V
3,
V
5,
?, V
N-1
connected to the non-inverting input and V
2,
V
4,
V
6,
?, V
N
connected to the inverting input as shown in the figure below (+V
CC
= 15 volt,
?V
CC
= ?15 volt). The voltages V
1,
V
2,
V
3,
V
4,
V
5,
V
6,
?

are 1, ? 1/2, 1/3, ?1/4, 1/5, ?1/6, ? volt,
respectively. As N approaches infinity, the output voltage (in volt) is ___________




Q.41 A p-i-n photodiode of responsivity 0.8A/W is connected to the inverting input of an ideal opamp as
shown in the figure, +Vcc = 15 V, ?Vcc = ?15V, Load resistor R
L
= 10 k?. If 10 ?W of power is
incident on the photodiode, then the value of the photocurrent (in ?A) through the load is ________





GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 14/17
Q.42 Identify the circuit below.




(A) Binary to Gray code converter (B) Binary to XS3 converter
(C) Gray to Binary converter (D) XS3 to Binary converter


Q.43 The functionality implemented by the circuit below is




(A) 2-to-1 multiplexer (B) 4-to-1 multiplexer
(C) 7-to-1 multiplexer (D) 6-to-1 multiplexer


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 15/17

Q.44 In an 8085 system, a PUSH operation requires more clock cycles than a POP operation. Which one
of the following options is the correct reason for this?
(A) For POP, the data transceivers remain in the same direction as for instruction fetch (memory to
processor), whereas for PUSH their direction has to be reversed.
(B) Memory write operations are slower than memory read operations in an 8085 based system.
(C) The stack pointer needs to be pre-decremented before writing registers in a PUSH, whereas a
POP operation uses the address already in the stack pointer.
(D) Order of registers has to be interchanged for a PUSH operation, whereas POP uses their natural
order.



Q.45 The open-loop transfer function of a unity-feedback control system is
?? ( ?? ) =
?? ?? 2
+ 5 ?? + 5


The value of K at the breakaway point of the feedback control system?s root-locus plot is ________



Q.46 The open-loop transfer function of a unity-feedback control system is given by

?? ( ?? ) =
?? ?? ( ?? + 2)


For the peak overshoot of the closed-loop system to a unit step input to be 10%, the value of K is
____________


Q.47 The transfer function of a linear time invariant system is given by
H(s) = 2?? 4
? 5?? 3
+ 5?? ? 2
The number of zeros in the right half of the s-plane is ________


Q.48 Consider a discrete memoryless source with alphabet ?? = { ?? 0
, ?? 1
, ?? 2
, ?? 3
, ?? 4
, ? } and respective
probabilities of occurrence P = ?
1
2
,
1
4
,
1
8
,
1
1 6
,
1
3 2
, ? ? . The entropy of the source (in bits) is _______


Q.49 A digital communication system uses a repetition code for channel encoding/decoding. During
transmission, each bit is repeated three times (0 is transmitted as 000, and 1 is transmitted as 111).
It is assumed that the source puts out symbols independently and with equal probability. The
decoder operates as follows: In a block of three received bits, if the number of zeros exceeds the
number of ones, the decoder decides in favor of a 0, and if the number of ones exceeds the number
of zeros, the decoder decides in favor of a 1. Assuming a binary symmetric channel with
crossover probability p = 0.1, the average probability of error is ________

FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 6/17
Q.15 Consider the oscillator circuit shown in the figure. The function of the network (shown in dotted
lines) consisting of the 100 k? resistor in series with the two diodes connected back-to-back is to:

(A) introduce amplitude stabilization by preventing the op amp from saturating and thus producing
sinusoidal oscillations of fixed amplitude
(B) introduce amplitude stabilization by forcing the opamp to swing between positive and negative
saturation and thus producing square wave oscillations of fixed amplitude
(C) introduce frequency stabilization by forcing the circuit to oscillate at a single frequency
(D) enable the loop gain to take on a value that produces square wave oscillations


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 7/17

Q.16 The block diagram of a frequency synthesizer consisting of a Phase Locked Loop (PLL) and a
divide-by- ?? counter (comprising ? 2 ,? 4, ? 8, ? 16 outputs) is sketched below. The
synthesizer is excited with a 5 kHz signal (Input 1). The free-running frequency of the PLL is set to
20 kHz. Assume that the commutator switch makes contacts repeatedly in the order 1-2-3-4.


The corresponding frequencies synthesized are:
(A) 10 kHz, 20 kHz, 40 kHz, 80 kHz
(B) 20 kHz, 40 kHz, 80 kHz, 160 kHz
(C) 80 kHz, 40 kHz, 20 kHz, 10 kHz
(D) 160 kHz, 80 kHz, 40 kHz, 20 kHz


Q.17 The output of the combinational circuit given below is




(A) A+B+C (B) A(B+C) (C) B(C+A) (D) C(A+B)

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 8/17
Q.18 What is the voltage V
out
in the following circuit?




(A) 0 V (B) (|V
T
of PMOS| + V
T
of NMOS) / 2
(C) Switching threshold of inverter (D) V
DD


Q.19 Match the inferences X, Y, and Z, about a system, to the corresponding properties of the elements
of first column in Routh?s Table of the system characteristic equation.

X: The system is stable ?
Y: The system is unstable ?
Z: The test breaks down ?
P: ? when all elements are positive
Q: ? when any one element is zero
R: ? when there is a change in sign of coefficients

(A) X?P, Y?Q, Z?R (B) X?Q, Y?P, Z?R
(C) X?R, Y?Q, Z?P (D) X?P, Y?R, Z?Q


Q.20 A closed-loop control system is stable if the Nyquist plot of the corresponding open-loop transfer
function
(A) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane poles.
(B) encircles the s-plane point (0 ? j1) in the clockwise direction as many times as the number of
right-half s-plane poles.
(C) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of left-half s-plane poles.
(D) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane zeros.


Q.21 Consider binary data transmission at a rate of 56 kbps using baseband binary pulse amplitude
modulation (PAM) that is designed to have a raised-cosine spectrum. The transmission bandwidth
(in kHz) required for a roll-off factor of 0.25 is ________

?
V
DD

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 9/17
Q.22 A superheterodyne receiver operates in the frequency range of 58 MHz ? 68 MHz. The
intermediate frequency ?? ????
and local oscillator frequency ?? ????
are chosen such that ?? ????
? ?? ????
. It is
required that the image frequencies fall outside the 58 MHz ? 68 MHz band. The minimum
required ?? ????
(in MHz) is ________


Q.23 The amplitude of a sinusoidal carrier is modulated by a single sinusoid to obtain the amplitude
modulated signal ?? ( ?? ) = 5 cos 1600???? + 20 cos 1800???? + 5 cos 2000???? . The value of the
modulation index is __________



Q.24 Concentric spherical shells of radii 2 m, 4 m, and 8 m carry uniform surface charge densities of
20 nC/m
2
, ?4 nC/m
2
and ?
s
, respectively. The value of ?
s
(nC/m
2
) required to ensure that the
electric flux density ?? ? ? ?
= 0
? ?
at radius 10 m is _________


Q.25 The propagation constant of a lossy transmission line is (2 + ?? 5) m
?1
and its characteristic
impedance is (50 + ?? 0) ? at ?? = 10
6
rad s
?1
. The values of the line constants L, C, R, G are,
respectively,
(A) L = 200 ?H/m, C = 0.1 ?F/m, R = 50 ?/m, G = 0.02 S/m
(B) L = 250 ?H/m, C = 0.1 ?F/m, R = 100 ?/m, G = 0.04 S/m
(C) L = 200 ?H/m, C = 0.2 ?F/m, R = 100 ?/m, G = 0.02 S/m
(D) L = 250 ?H/m, C = 0.2 ?F/m, R = 50 ?/m, G = 0.04 S/m


Q. 26 ? Q. 55 carry two marks each.
Q.26
The integral
1
2 ?? ? ( ?? + ?? + 10) ?? ?? ?? ??
?? , where ?? denotes the disc: ?? 2
+ ?? 2
? 4, evaluates to_____


Q.27 A sequence x[n] is specified as

?
?? [ ?? ]
?? [ ?? ? 1]
? = ?
1 1
1 0
?
?? ?
1
0
? , for ?? ? 2.

The initial conditions are x[0] = 1, x[1] = 1, and x[n] = 0 for n < 0. The value of x[12] is ______


Q.28 In the following integral, the contour C encloses the points 2?j and ?2?j
?
1
2?? ?
?? ???? ?? ( ?? ? 2???? )
3
?? ?? ??
The value of the integral is ________



Q.29
The region specified by {( ?? , ?? , ?? ): 3 ? ?? ? 5,
?
8
? ?? ?
?
4
, 3 ? z ? 4.5} in cylindrical coordinates
has volume of _______
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 10/17

Q.30 The Laplace transform of the causal periodic square wave of period T shown in the figure below is




(A) ?? ( ?? ) =
1
1 + ?? ? ???? / 2
(B) ?? ( ?? ) =
1
?? ? 1 + ?? ?
????
2 ?

(C) ?? ( ?? ) =
1
?? ( 1 ? ?? ? ????
)
(D) ?? ( ?? ) =
1
1 ? ?? ? ????



Q.31 A network consisting of a finite number of linear resistor (R), inductor (L), and capacitor (C)
elements, connected all in series or all in parallel, is excited with a source of the form

? ?? ?? cos( ?? ?? 0
?? ) , where ?? ?? ? 0, ?? 0
? 0.
3
?? = 1


The source has nonzero impedance. Which one of the following is a possible form of the output
measured across a resistor in the network?
(A)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? ?? ?? 3
?? = 1
, ? ??
(B)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? 0, ? ?? 4
?? = 1

(C)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
3
?? = 1

(D)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
2
?? = 1



Q.32 A first-order low-pass filter of time constant T is excited with different input signals (with zero
initial conditions up to t = 0). Match the excitation signals X, Y, Z with the corresponding time
responses for t ? 0:

X: Impulse P: 1 ? ?? ? ?? / ??
Y: Unit step Q: t ? T(1 ? ?? ? ?? / ?? )
Z: Ramp R: ?? ? ?? / ??

(A) X?R, Y?Q, Z?P (B) X?Q, Y?P, Z?R
(C) X?R, Y?P, Z?Q (D) X?P, Y?R, Z?Q

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 11/17
Q.33 An AC voltage source V = 10 sin(t) volts is applied to the following network. Assume that R
1
= 3
k?, R
2
= 6 k? and R
3
= 9 k?, and that the diode is ideal.




RMS current I
rms
(in mA) through the diode is ________




Q.34 In the circuit shown in the figure,
the maximum power (in watt) delivered to the resistor R is __________
2 k?
3 k? 10 k?
40 k? R v
0
100 v
0
5 V





Q.35 Consider the signal
?? [ ?? ] = 6 ?? [ ?? + 2] + 3 ?? [ ?? + 1] + 8 ?? [ ?? ] + 7 ?? [ ?? ? 1] + 4 ?? [ ?? ? 2] .
If ?? ( ?? ?? ??
) is the discrete-time Fourier transform of x[n] ,
then
1
?? ? ?? ? ?? ?? ??
? sin
2
(2 ?? )
?? ? ?? ?? ?? is equal to _________
I
rms
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 12/17
Q.36 Consider a silicon p-n junction with a uniform acceptor doping concentration of 10
17
cm
?3
on the p-
side and a uniform donor doping concentration of 10
16
cm
?3
on the n-side. No external voltage is
applied to the diode. Given: kT/q = 26 mV, n
i
=1.5 ?10
10
cm
?3
, ?
Si
= 12?
0
, ?
0
= 8.85 ? 10
? 1 4
F/m,
and q = 1.6 ?10
?19
C.
The charge per unit junction area (nC cm
?2
) in the depletion region on the p-side is ___________


Q.37 Consider an n-channel metal oxide semiconductor field effect transistor (MOSFET) with a gate-to-
source voltage of 1.8 V. Assume that
?? ?? = 4, ?? ?? ?? ????
= 70 ? 10
? 6
AV
? 2
, the threshold voltage is
0.3V, and the channel length modulation parameter is 0.09 V
?1
. In the saturation region, the drain
conductance (in micro seimens) is ________


Q.38 The figure below shows the doping distribution in a p-type semiconductor in log scale.



The magnitude of the electric field (in kV/cm) in the semiconductor due to non uniform doping
is _________




Q.39 Consider a silicon sample at T = 300 K, with a uniform donor density ?? ??
= 5 ? 10
1 6
cm
? 3
,
illuminated uniformly such that the optical generation rate is ?? ?????? = 1.5 ? 10
2 0
cm
? 3
?? ? 1

throughout the sample. The incident radiation is turned off at ?? = 0. Assume low-level injection to
be valid and ignore surface effects. The carrier lifetimes are ?? ?? 0
= 0.1 ?s and ?? ?? 0
= 0.5 ?s.



The hole concentration at ?? = 0 and the hole concentration at ?? = 0.3 ?s, respectively, are
(A) 1.5 ? 10
1 3
cm
? 3
and 7.47 ? 10
1 1
cm
? 3

(B) 1.5 ? 10
1 3
cm
? 3
and 8.23 ? 10
1 1
cm
? 3

(C) 7.5 ? 10
1 3
cm
? 3
and 3.73 ? 10
1 1
cm
? 3

(D) 7.5 ? 10
1 3
cm
? 3
and 4.12 ? 10
1 1
cm
? 3


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 13/17
Q.40 An ideal opamp has voltage sources V
1,
V
3,
V
5,
?, V
N-1
connected to the non-inverting input and V
2,
V
4,
V
6,
?, V
N
connected to the inverting input as shown in the figure below (+V
CC
= 15 volt,
?V
CC
= ?15 volt). The voltages V
1,
V
2,
V
3,
V
4,
V
5,
V
6,
?

are 1, ? 1/2, 1/3, ?1/4, 1/5, ?1/6, ? volt,
respectively. As N approaches infinity, the output voltage (in volt) is ___________




Q.41 A p-i-n photodiode of responsivity 0.8A/W is connected to the inverting input of an ideal opamp as
shown in the figure, +Vcc = 15 V, ?Vcc = ?15V, Load resistor R
L
= 10 k?. If 10 ?W of power is
incident on the photodiode, then the value of the photocurrent (in ?A) through the load is ________





GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 14/17
Q.42 Identify the circuit below.




(A) Binary to Gray code converter (B) Binary to XS3 converter
(C) Gray to Binary converter (D) XS3 to Binary converter


Q.43 The functionality implemented by the circuit below is




(A) 2-to-1 multiplexer (B) 4-to-1 multiplexer
(C) 7-to-1 multiplexer (D) 6-to-1 multiplexer


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 15/17

Q.44 In an 8085 system, a PUSH operation requires more clock cycles than a POP operation. Which one
of the following options is the correct reason for this?
(A) For POP, the data transceivers remain in the same direction as for instruction fetch (memory to
processor), whereas for PUSH their direction has to be reversed.
(B) Memory write operations are slower than memory read operations in an 8085 based system.
(C) The stack pointer needs to be pre-decremented before writing registers in a PUSH, whereas a
POP operation uses the address already in the stack pointer.
(D) Order of registers has to be interchanged for a PUSH operation, whereas POP uses their natural
order.



Q.45 The open-loop transfer function of a unity-feedback control system is
?? ( ?? ) =
?? ?? 2
+ 5 ?? + 5


The value of K at the breakaway point of the feedback control system?s root-locus plot is ________



Q.46 The open-loop transfer function of a unity-feedback control system is given by

?? ( ?? ) =
?? ?? ( ?? + 2)


For the peak overshoot of the closed-loop system to a unit step input to be 10%, the value of K is
____________


Q.47 The transfer function of a linear time invariant system is given by
H(s) = 2?? 4
? 5?? 3
+ 5?? ? 2
The number of zeros in the right half of the s-plane is ________


Q.48 Consider a discrete memoryless source with alphabet ?? = { ?? 0
, ?? 1
, ?? 2
, ?? 3
, ?? 4
, ? } and respective
probabilities of occurrence P = ?
1
2
,
1
4
,
1
8
,
1
1 6
,
1
3 2
, ? ? . The entropy of the source (in bits) is _______


Q.49 A digital communication system uses a repetition code for channel encoding/decoding. During
transmission, each bit is repeated three times (0 is transmitted as 000, and 1 is transmitted as 111).
It is assumed that the source puts out symbols independently and with equal probability. The
decoder operates as follows: In a block of three received bits, if the number of zeros exceeds the
number of ones, the decoder decides in favor of a 0, and if the number of ones exceeds the number
of zeros, the decoder decides in favor of a 1. Assuming a binary symmetric channel with
crossover probability p = 0.1, the average probability of error is ________

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 16/17

Q.50 An analog pulse s(t) is transmitted over an additive white Gaussian noise (AWGN) channel. The
received signal is r(t) = s(t) + n(t), where n(t) is additive white Gaussian noise with power spectral
density
?? 0
2
. The received signal is passed through a filter with impulse response h(t). Let ?? ?? and ?? ?

denote the energies of the pulse s(t) and the filter h(t), respectively. When the signal-to-noise ratio
(SNR) is maximized at the output of the filter (SNR
max
), which of the following holds?
(A) ?? ?? = ?? ?
; SNR
max
=
2 ?? ?? ?? 0
(B) ?? ?? = ?? ?
; SNR
max
=
?? ?? 2 ?? 0

(C) ?? ?? > ?? ?
; SNR
max
>
2 ?? ?? ?? 0
(D) ?? ?? < ?? ?
; SNR
max
=
2 ?? ?
?? 0



Q.51 The current density in a medium is given by
?? ? ? ?
=
400 ?? ???? ?? 2?? ( ?? 2
+ 4)
?? ?
?? Am
? 2

The total current and the average current density flowing through the portion of a spherical surface
r = 0.8 m,
?? 1 2
? ?? ?
?? 4
, 0 ? ?? ? 2 ?? are given, respectively, by
(A) 15.09 A, 12.86 Am
-2
(B) 18.73 A, 13.65 Am
-2

(C) 12.86 A, 9.23 Am
-2
(D) 10.28 A, 7.56 Am
-2



Q.52 An antenna pointing in a certain direction has a noise temperature of 50 K. The ambient
temperature is 290 K. The antenna is connected to a pre-amplifier that has a noise figure of 2 dB
and an available gain of 40 dB over an effective bandwidth of 12 MHz. The effective input noise
temperature T
e
for the amplifier and the noise power P
ao
at the output of the preamplifier,
respectively, are
(A) T
e
= 169.36 K and P
ao
= 3.73?10
-10
W (B) T
e
= 170.8 K and P
ao
= 4.56?10
-10
W
(C) T
e
= 182.5 K and P
ao
= 3.85?10
-10
W (D) T
e
= 160.62 K and P
ao
= 4.6?10
-10
W


Q.53 Two lossless X-band horn antennas are separated by a distance of 200?. The amplitude reflection
coefficients at the terminals of the transmitting and receiving antennas are 0.15 and 0.18,
respectively. The maximum directivities of the transmitting and receiving antennas (over the
isotropic antenna) are 18 dB and 22 dB, respectively. Assuming that the input power in the lossless
transmission line connected to the antenna is 2 W, and that the antennas are perfectly aligned and
polarization matched, the power ( in mW) delivered to the load at the receiver is ________


FirstRanker.com - FirstRanker's Choice
GATE 2016 General Aptitude - GA Set-1
1/2
Q. 1 ? Q. 5 carry one mark each.
Q.1 Which of the following is CORRECT with respect to grammar and usage?

Mount Everest is ____________.
(A) the highest peak in the world

(B) highest peak in the world

(C) one of highest peak in the world

(D) one of the highest peak in the world



Q.2 The policeman asked the victim of a theft, ?What did you ??
(A) loose (B) lose (C) loss (D) louse


Q.3 Despite the new medicine?s ______________ in treating diabetes, it is not ______________widely.
(A) effectiveness --- prescribed (B) availability --- used
(C) prescription --- available (D) acceptance --- proscribed


Q.4 In a huge pile of apples and oranges, both ripe and unripe mixed together, 15% are unripe fruits. Of
the unripe fruits, 45% are apples. Of the ripe ones, 66% are oranges. If the pile contains a total of
5692000 fruits, how many of them are apples?

(A) 2029198 (B) 2467482 (C) 2789080 (D) 3577422


Q.5 Michael lives 10 km away from where I live. Ahmed lives 5 km away and Susan lives 7 km away
from where I live. Arun is farther away than Ahmed but closer than Susan from where I live. From
the information provided here, what is one possible distance (in km) at which I live from Arun?s
place?

(A) 3.00 (B) 4.99 (C) 6.02 (D) 7.01


Q. 6 ? Q. 10 carry two marks each.

Q.6 A person moving through a tuberculosis prone zone has a 50% probability of becoming infected.
However, only 30% of infected people develop the disease. What percentage of people moving
through a tuberculosis prone zone remains infected but does not show symptoms of disease?

(A) 15 (B) 33 (C) 35 (D) 37


GATE 2016 General Aptitude - GA Set-1
2/2
Q.7 In a world filled with uncertainty, he was glad to have many good friends. He had always assisted
them in times of need and was confident that they would reciprocate. However, the events of the
last week proved him wrong.

Which of the following inference(s) is/are logically valid and can be inferred from the above
passage?

(i) His friends were always asking him to help them.

(ii) He felt that when in need of help, his friends would let him down.

(iii) He was sure that his friends would help him when in need.

(iv) His friends did not help him last week.

(A) (i) and (ii) (B) (iii) and (iv) (C) (iii) only (D) (iv) only


Q.8 Leela is older than her cousin Pavithra. Pavithra?s brother Shiva is older than Leela. When Pavithra
and Shiva are visiting Leela, all three like to play chess. Pavithra wins more often than Leela does.

Which one of the following statements must be TRUE based on the above?
(A) When Shiva plays chess with Leela and Pavithra, he often loses.

(B) Leela is the oldest of the three.

(C) Shiva is a better chess player than Pavithra.

(D) Pavithra is the youngest of the three.



Q.9
If ???? ? ???? =
1
???? and ???? ? ???? =
1
???? and ???? ? ???? =
1
???? , the value of abc is .

(A) ( ???????????? )
?1

(B) 0 (C) 1 (D) r+q+s




END OF THE QUESTION PAPER
Q.10 P, Q, R and S are working on a project. Q can finish the task in 25 days, working alone for 12
hours a day. R can finish the task in 50 days, working alone for 12 hours per day. Q worked 12
hours a day but took sick leave in the beginning for two days. R worked 18 hours a day on all days.
What is the ratio of work done by Q and R after 7 days from the start of the project?

(A) 10:11 (B) 11:10 (C) 20:21 (D) 21:20
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 1/17
Q. 1 ? Q. 25 carry one mark each.
Q.1 Let M
4
= I, (where I denotes the identity matrix) and M ? I, M
2
? I and M
3
? I. Then, for any
natural number k, M
?1
equals:
(A) M
4k + 1
(B) M
4k + 2
(C) M
4k + 3
(D) M
4k



Q.2 The second moment of a Poisson-distributed random variable is 2. The mean of the random
variable is _______


Q.3 Given the following statements about a function ?? : ? ? ?, select the right option:

P: If f(x) is continuous at ?? = ?? 0
, then it is also differentiable at ?? = ?? 0
.
Q: If f(x) is continuous at ?? = ?? 0
, then it may not be differentiable at ?? = ?? 0
.
R: If f(x) is differentiable at ?? = ?? 0
, then it is also continuous at ?? = ?? 0
.
(A) P is true, Q is false, R is false (B) P is false, Q is true, R is true
(C) P is false, Q is true, R is false (D) P is true, Q is false, R is true


Q.4 Which one of the following is a property of the solutions to the Laplace equation: ?
2
?? = 0?
(A) The solutions have neither maxima nor minima anywhere except at the boundaries.
(B) The solutions are not separable in the coordinates.
(C) The solutions are not continuous.
(D) The solutions are not dependent on the boundary conditions.


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 2/17

Q.5 Consider the plot of ?? ( ?? ) versus ?? as shown below.



Suppose ?? ( ?? ) = ? ?? ( ?? ) ?? ?? ?? ? 5
. Which one of the following is a graph of ?? ( ?? )?
(A) (B)
(C) (D)



Q.6 Which one of the following is an eigen function of the class of all continuous-time, linear, time-
invariant systems ( ?? ( ?? ) denotes the unit-step function)?
(A) ?? ?? ?? 0
?? ?? ( ?? )
(B) cos ( ?? 0
?? )
(C) ?? ?? ?? 0
??
(D) sin ( ?? 0
?? )


Q.7 A continuous-time function x(t) is periodic with period T. The function is sampled uniformly with
a sampling period ?? ?? . In which one of the following cases is the sampled signal periodic?
(A) ?? = ?2 ?? ??
(B) ?? = 1.2 ?? ??
(C) Always (D) Never


Q.8 Consider the sequence ?? [ ?? ] = ?? ?? ?? [ ?? ] + ?? ?? ?? [ ?? ], where ?? [ ?? ] denotes the unit-step sequence and
0 < | ?? | < | ?? | < 1. The region of convergence (ROC) of the z-transform of ?? [ ?? ] is
(A) | ?? | > | ?? | (B) | ?? | > | ?? | (C) | ?? | < | ?? | (D) | ?? | < | ?? | < | ?? |


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 3/17

Q.9
Consider a two-port network with the transmission matrix: ?? = ?
?? ?? ?? ?? ? . If the network is
reciprocal, then
(A) ?? ? 1
= ?? (B) ?? 2
= ??
(C) Determinant (T) = 0 (D) Determinant (T) = 1


Q.10 A continuous-time sinusoid of frequency 33 Hz is multiplied with a periodic Dirac impulse train of
frequency 46 Hz. The resulting signal is passed through an ideal analog low-pass filter with a cutoff
frequency of 23 Hz. The fundamental frequency (in Hz) of the output is _________


Q.11 A small percentage of impurity is added to an intrinsic semiconductor at 300 K. Which one of the
following statements is true for the energy band diagram shown in the following figure?



(A) Intrinsic semiconductor doped with pentavalent atoms to form n-type semiconductor
(B) Intrinsic semiconductor doped with trivalent atoms to form n-type semiconductor
(C) Intrinsic semiconductor doped with pentavalent atoms to form p-type semiconductor
(D) Intrinsic semiconductor doped with trivalent atoms to form p-type semiconductor


Q.12 Consider the following statements for a metal oxide semiconductor field effect transistor
(MOSFET):

P: As channel length reduces, OFF-state current increases.
Q: As channel length reduces, output resistance increases.
R: As channel length reduces, threshold voltage remains constant.
S: As channel length reduces, ON current increases.
Which of the above statements are INCORRECT?
(A) P and Q (B) P and S (C) Q and R (D) R and S

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 4/17
Q.13 Consider the constant current source shown in the figure below. Let ?? represent the current gain of
the transistor.

The load current ?? 0
through R
L
is
(A) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? ?? (B) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? ?? (C) ?? 0
= ?
?? + 1
?? ?
?? ?? ???? 2 ?? (D) ?? 0
= ?
?? ?? + 1
?
?? ?? ???? 2 ??
V
ref

?
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 5/17
Q.14 The following signal V
i
of peak voltage 8 V is applied to the non-inverting terminal of an ideal
opamp. The transistor has V
BE
= 0.7 V, ? =100; V
LED
= 1.5 V, V
CC
= 10 V and ?V
CC
= ?10 V.




The number of times the LED glows is ________

t
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 6/17
Q.15 Consider the oscillator circuit shown in the figure. The function of the network (shown in dotted
lines) consisting of the 100 k? resistor in series with the two diodes connected back-to-back is to:

(A) introduce amplitude stabilization by preventing the op amp from saturating and thus producing
sinusoidal oscillations of fixed amplitude
(B) introduce amplitude stabilization by forcing the opamp to swing between positive and negative
saturation and thus producing square wave oscillations of fixed amplitude
(C) introduce frequency stabilization by forcing the circuit to oscillate at a single frequency
(D) enable the loop gain to take on a value that produces square wave oscillations


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 7/17

Q.16 The block diagram of a frequency synthesizer consisting of a Phase Locked Loop (PLL) and a
divide-by- ?? counter (comprising ? 2 ,? 4, ? 8, ? 16 outputs) is sketched below. The
synthesizer is excited with a 5 kHz signal (Input 1). The free-running frequency of the PLL is set to
20 kHz. Assume that the commutator switch makes contacts repeatedly in the order 1-2-3-4.


The corresponding frequencies synthesized are:
(A) 10 kHz, 20 kHz, 40 kHz, 80 kHz
(B) 20 kHz, 40 kHz, 80 kHz, 160 kHz
(C) 80 kHz, 40 kHz, 20 kHz, 10 kHz
(D) 160 kHz, 80 kHz, 40 kHz, 20 kHz


Q.17 The output of the combinational circuit given below is




(A) A+B+C (B) A(B+C) (C) B(C+A) (D) C(A+B)

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 8/17
Q.18 What is the voltage V
out
in the following circuit?




(A) 0 V (B) (|V
T
of PMOS| + V
T
of NMOS) / 2
(C) Switching threshold of inverter (D) V
DD


Q.19 Match the inferences X, Y, and Z, about a system, to the corresponding properties of the elements
of first column in Routh?s Table of the system characteristic equation.

X: The system is stable ?
Y: The system is unstable ?
Z: The test breaks down ?
P: ? when all elements are positive
Q: ? when any one element is zero
R: ? when there is a change in sign of coefficients

(A) X?P, Y?Q, Z?R (B) X?Q, Y?P, Z?R
(C) X?R, Y?Q, Z?P (D) X?P, Y?R, Z?Q


Q.20 A closed-loop control system is stable if the Nyquist plot of the corresponding open-loop transfer
function
(A) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane poles.
(B) encircles the s-plane point (0 ? j1) in the clockwise direction as many times as the number of
right-half s-plane poles.
(C) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of left-half s-plane poles.
(D) encircles the s-plane point (?1 + j0) in the counterclockwise direction as many times as the
number of right-half s-plane zeros.


Q.21 Consider binary data transmission at a rate of 56 kbps using baseband binary pulse amplitude
modulation (PAM) that is designed to have a raised-cosine spectrum. The transmission bandwidth
(in kHz) required for a roll-off factor of 0.25 is ________

?
V
DD

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 9/17
Q.22 A superheterodyne receiver operates in the frequency range of 58 MHz ? 68 MHz. The
intermediate frequency ?? ????
and local oscillator frequency ?? ????
are chosen such that ?? ????
? ?? ????
. It is
required that the image frequencies fall outside the 58 MHz ? 68 MHz band. The minimum
required ?? ????
(in MHz) is ________


Q.23 The amplitude of a sinusoidal carrier is modulated by a single sinusoid to obtain the amplitude
modulated signal ?? ( ?? ) = 5 cos 1600???? + 20 cos 1800???? + 5 cos 2000???? . The value of the
modulation index is __________



Q.24 Concentric spherical shells of radii 2 m, 4 m, and 8 m carry uniform surface charge densities of
20 nC/m
2
, ?4 nC/m
2
and ?
s
, respectively. The value of ?
s
(nC/m
2
) required to ensure that the
electric flux density ?? ? ? ?
= 0
? ?
at radius 10 m is _________


Q.25 The propagation constant of a lossy transmission line is (2 + ?? 5) m
?1
and its characteristic
impedance is (50 + ?? 0) ? at ?? = 10
6
rad s
?1
. The values of the line constants L, C, R, G are,
respectively,
(A) L = 200 ?H/m, C = 0.1 ?F/m, R = 50 ?/m, G = 0.02 S/m
(B) L = 250 ?H/m, C = 0.1 ?F/m, R = 100 ?/m, G = 0.04 S/m
(C) L = 200 ?H/m, C = 0.2 ?F/m, R = 100 ?/m, G = 0.02 S/m
(D) L = 250 ?H/m, C = 0.2 ?F/m, R = 50 ?/m, G = 0.04 S/m


Q. 26 ? Q. 55 carry two marks each.
Q.26
The integral
1
2 ?? ? ( ?? + ?? + 10) ?? ?? ?? ??
?? , where ?? denotes the disc: ?? 2
+ ?? 2
? 4, evaluates to_____


Q.27 A sequence x[n] is specified as

?
?? [ ?? ]
?? [ ?? ? 1]
? = ?
1 1
1 0
?
?? ?
1
0
? , for ?? ? 2.

The initial conditions are x[0] = 1, x[1] = 1, and x[n] = 0 for n < 0. The value of x[12] is ______


Q.28 In the following integral, the contour C encloses the points 2?j and ?2?j
?
1
2?? ?
?? ???? ?? ( ?? ? 2???? )
3
?? ?? ??
The value of the integral is ________



Q.29
The region specified by {( ?? , ?? , ?? ): 3 ? ?? ? 5,
?
8
? ?? ?
?
4
, 3 ? z ? 4.5} in cylindrical coordinates
has volume of _______
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 10/17

Q.30 The Laplace transform of the causal periodic square wave of period T shown in the figure below is




(A) ?? ( ?? ) =
1
1 + ?? ? ???? / 2
(B) ?? ( ?? ) =
1
?? ? 1 + ?? ?
????
2 ?

(C) ?? ( ?? ) =
1
?? ( 1 ? ?? ? ????
)
(D) ?? ( ?? ) =
1
1 ? ?? ? ????



Q.31 A network consisting of a finite number of linear resistor (R), inductor (L), and capacitor (C)
elements, connected all in series or all in parallel, is excited with a source of the form

? ?? ?? cos( ?? ?? 0
?? ) , where ?? ?? ? 0, ?? 0
? 0.
3
?? = 1


The source has nonzero impedance. Which one of the following is a possible form of the output
measured across a resistor in the network?
(A)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? ?? ?? 3
?? = 1
, ? ??
(B)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? ) , where ?? ?? ? 0, ? ?? 4
?? = 1

(C)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
3
?? = 1

(D)
? ?? ?? cos( ?? ?? 0
?? + ?? ?? )
2
?? = 1



Q.32 A first-order low-pass filter of time constant T is excited with different input signals (with zero
initial conditions up to t = 0). Match the excitation signals X, Y, Z with the corresponding time
responses for t ? 0:

X: Impulse P: 1 ? ?? ? ?? / ??
Y: Unit step Q: t ? T(1 ? ?? ? ?? / ?? )
Z: Ramp R: ?? ? ?? / ??

(A) X?R, Y?Q, Z?P (B) X?Q, Y?P, Z?R
(C) X?R, Y?P, Z?Q (D) X?P, Y?R, Z?Q

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 11/17
Q.33 An AC voltage source V = 10 sin(t) volts is applied to the following network. Assume that R
1
= 3
k?, R
2
= 6 k? and R
3
= 9 k?, and that the diode is ideal.




RMS current I
rms
(in mA) through the diode is ________




Q.34 In the circuit shown in the figure,
the maximum power (in watt) delivered to the resistor R is __________
2 k?
3 k? 10 k?
40 k? R v
0
100 v
0
5 V





Q.35 Consider the signal
?? [ ?? ] = 6 ?? [ ?? + 2] + 3 ?? [ ?? + 1] + 8 ?? [ ?? ] + 7 ?? [ ?? ? 1] + 4 ?? [ ?? ? 2] .
If ?? ( ?? ?? ??
) is the discrete-time Fourier transform of x[n] ,
then
1
?? ? ?? ? ?? ?? ??
? sin
2
(2 ?? )
?? ? ?? ?? ?? is equal to _________
I
rms
?
GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 12/17
Q.36 Consider a silicon p-n junction with a uniform acceptor doping concentration of 10
17
cm
?3
on the p-
side and a uniform donor doping concentration of 10
16
cm
?3
on the n-side. No external voltage is
applied to the diode. Given: kT/q = 26 mV, n
i
=1.5 ?10
10
cm
?3
, ?
Si
= 12?
0
, ?
0
= 8.85 ? 10
? 1 4
F/m,
and q = 1.6 ?10
?19
C.
The charge per unit junction area (nC cm
?2
) in the depletion region on the p-side is ___________


Q.37 Consider an n-channel metal oxide semiconductor field effect transistor (MOSFET) with a gate-to-
source voltage of 1.8 V. Assume that
?? ?? = 4, ?? ?? ?? ????
= 70 ? 10
? 6
AV
? 2
, the threshold voltage is
0.3V, and the channel length modulation parameter is 0.09 V
?1
. In the saturation region, the drain
conductance (in micro seimens) is ________


Q.38 The figure below shows the doping distribution in a p-type semiconductor in log scale.



The magnitude of the electric field (in kV/cm) in the semiconductor due to non uniform doping
is _________




Q.39 Consider a silicon sample at T = 300 K, with a uniform donor density ?? ??
= 5 ? 10
1 6
cm
? 3
,
illuminated uniformly such that the optical generation rate is ?? ?????? = 1.5 ? 10
2 0
cm
? 3
?? ? 1

throughout the sample. The incident radiation is turned off at ?? = 0. Assume low-level injection to
be valid and ignore surface effects. The carrier lifetimes are ?? ?? 0
= 0.1 ?s and ?? ?? 0
= 0.5 ?s.



The hole concentration at ?? = 0 and the hole concentration at ?? = 0.3 ?s, respectively, are
(A) 1.5 ? 10
1 3
cm
? 3
and 7.47 ? 10
1 1
cm
? 3

(B) 1.5 ? 10
1 3
cm
? 3
and 8.23 ? 10
1 1
cm
? 3

(C) 7.5 ? 10
1 3
cm
? 3
and 3.73 ? 10
1 1
cm
? 3

(D) 7.5 ? 10
1 3
cm
? 3
and 4.12 ? 10
1 1
cm
? 3


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 13/17
Q.40 An ideal opamp has voltage sources V
1,
V
3,
V
5,
?, V
N-1
connected to the non-inverting input and V
2,
V
4,
V
6,
?, V
N
connected to the inverting input as shown in the figure below (+V
CC
= 15 volt,
?V
CC
= ?15 volt). The voltages V
1,
V
2,
V
3,
V
4,
V
5,
V
6,
?

are 1, ? 1/2, 1/3, ?1/4, 1/5, ?1/6, ? volt,
respectively. As N approaches infinity, the output voltage (in volt) is ___________




Q.41 A p-i-n photodiode of responsivity 0.8A/W is connected to the inverting input of an ideal opamp as
shown in the figure, +Vcc = 15 V, ?Vcc = ?15V, Load resistor R
L
= 10 k?. If 10 ?W of power is
incident on the photodiode, then the value of the photocurrent (in ?A) through the load is ________





GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 14/17
Q.42 Identify the circuit below.




(A) Binary to Gray code converter (B) Binary to XS3 converter
(C) Gray to Binary converter (D) XS3 to Binary converter


Q.43 The functionality implemented by the circuit below is




(A) 2-to-1 multiplexer (B) 4-to-1 multiplexer
(C) 7-to-1 multiplexer (D) 6-to-1 multiplexer


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 15/17

Q.44 In an 8085 system, a PUSH operation requires more clock cycles than a POP operation. Which one
of the following options is the correct reason for this?
(A) For POP, the data transceivers remain in the same direction as for instruction fetch (memory to
processor), whereas for PUSH their direction has to be reversed.
(B) Memory write operations are slower than memory read operations in an 8085 based system.
(C) The stack pointer needs to be pre-decremented before writing registers in a PUSH, whereas a
POP operation uses the address already in the stack pointer.
(D) Order of registers has to be interchanged for a PUSH operation, whereas POP uses their natural
order.



Q.45 The open-loop transfer function of a unity-feedback control system is
?? ( ?? ) =
?? ?? 2
+ 5 ?? + 5


The value of K at the breakaway point of the feedback control system?s root-locus plot is ________



Q.46 The open-loop transfer function of a unity-feedback control system is given by

?? ( ?? ) =
?? ?? ( ?? + 2)


For the peak overshoot of the closed-loop system to a unit step input to be 10%, the value of K is
____________


Q.47 The transfer function of a linear time invariant system is given by
H(s) = 2?? 4
? 5?? 3
+ 5?? ? 2
The number of zeros in the right half of the s-plane is ________


Q.48 Consider a discrete memoryless source with alphabet ?? = { ?? 0
, ?? 1
, ?? 2
, ?? 3
, ?? 4
, ? } and respective
probabilities of occurrence P = ?
1
2
,
1
4
,
1
8
,
1
1 6
,
1
3 2
, ? ? . The entropy of the source (in bits) is _______


Q.49 A digital communication system uses a repetition code for channel encoding/decoding. During
transmission, each bit is repeated three times (0 is transmitted as 000, and 1 is transmitted as 111).
It is assumed that the source puts out symbols independently and with equal probability. The
decoder operates as follows: In a block of three received bits, if the number of zeros exceeds the
number of ones, the decoder decides in favor of a 0, and if the number of ones exceeds the number
of zeros, the decoder decides in favor of a 1. Assuming a binary symmetric channel with
crossover probability p = 0.1, the average probability of error is ________

GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 16/17

Q.50 An analog pulse s(t) is transmitted over an additive white Gaussian noise (AWGN) channel. The
received signal is r(t) = s(t) + n(t), where n(t) is additive white Gaussian noise with power spectral
density
?? 0
2
. The received signal is passed through a filter with impulse response h(t). Let ?? ?? and ?? ?

denote the energies of the pulse s(t) and the filter h(t), respectively. When the signal-to-noise ratio
(SNR) is maximized at the output of the filter (SNR
max
), which of the following holds?
(A) ?? ?? = ?? ?
; SNR
max
=
2 ?? ?? ?? 0
(B) ?? ?? = ?? ?
; SNR
max
=
?? ?? 2 ?? 0

(C) ?? ?? > ?? ?
; SNR
max
>
2 ?? ?? ?? 0
(D) ?? ?? < ?? ?
; SNR
max
=
2 ?? ?
?? 0



Q.51 The current density in a medium is given by
?? ? ? ?
=
400 ?? ???? ?? 2?? ( ?? 2
+ 4)
?? ?
?? Am
? 2

The total current and the average current density flowing through the portion of a spherical surface
r = 0.8 m,
?? 1 2
? ?? ?
?? 4
, 0 ? ?? ? 2 ?? are given, respectively, by
(A) 15.09 A, 12.86 Am
-2
(B) 18.73 A, 13.65 Am
-2

(C) 12.86 A, 9.23 Am
-2
(D) 10.28 A, 7.56 Am
-2



Q.52 An antenna pointing in a certain direction has a noise temperature of 50 K. The ambient
temperature is 290 K. The antenna is connected to a pre-amplifier that has a noise figure of 2 dB
and an available gain of 40 dB over an effective bandwidth of 12 MHz. The effective input noise
temperature T
e
for the amplifier and the noise power P
ao
at the output of the preamplifier,
respectively, are
(A) T
e
= 169.36 K and P
ao
= 3.73?10
-10
W (B) T
e
= 170.8 K and P
ao
= 4.56?10
-10
W
(C) T
e
= 182.5 K and P
ao
= 3.85?10
-10
W (D) T
e
= 160.62 K and P
ao
= 4.6?10
-10
W


Q.53 Two lossless X-band horn antennas are separated by a distance of 200?. The amplitude reflection
coefficients at the terminals of the transmitting and receiving antennas are 0.15 and 0.18,
respectively. The maximum directivities of the transmitting and receiving antennas (over the
isotropic antenna) are 18 dB and 22 dB, respectively. Assuming that the input power in the lossless
transmission line connected to the antenna is 2 W, and that the antennas are perfectly aligned and
polarization matched, the power ( in mW) delivered to the load at the receiver is ________


GATE 2016 Electronics and Communication Engineering (Set 1)

EC (1) 17/17

Q.54 The electric field of a uniform plane wave travelling along the negative z direction is given by the
following equation:
?? ? ?
?? ?? = ? ?? ?
?? + ?? ?? ?
?? ? ?? 0
?? ?? ?? ??

This wave is incident upon a receiving antenna placed at the origin and whose radiated electric field
towards the incident wave is given by the following equation:
?? ? ?
?? = ? ?? ?
?? + 2?? ?
?? ? ?? ?? 1
?? ?? ? ?? ?? ??

The polarization of the incident wave, the polarization of the antenna and losses due to the
polarization mismatch are, respectively,
(A) Linear, Circular (clockwise), ?5dB (B) Circular (clockwise), Linear, ?5dB
(C) Circular (clockwise), Linear, ?3dB (D) Circular (anti clockwise), Linear, ?3dB


Q.55 The far-zone power density radiated by a helical antenna is approximated as:
?? ? ? ? ?
?????? = ?? ? ? ? ?
?????? ?? ???? ?? ? ?? ?? ? ?? 0
1
?? 2
?? ???? 4
?
The radiated power density is symmetrical with respect to ? and exists only in the upper
hemisphere: 0 ? ?? ?
?? 2
; 0 ? ?? ? 2 ?? ; ?? 0
is a constant. The power radiated by the antenna (in
watts) and the maximum directivity of the antenna, respectively, are
(A) 1.5C
0
, 10dB (B) 1.256C
0
, 10dB (C) 1.256C
0
, 12dB (D) 1.5C
0
, 12dB




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This post was last modified on 18 December 2019