Download GATE 2015 EE Electrical Engineering Set 1 Question Paper

Download Graduate Aptitude Test in Engineering (GATE) 2015 EE Electrical Engineering Set 1 Question Paper

GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
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GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
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GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.11 Consider a one-turn rectangular loop of wire placed in a uniform magnetic field as shown in the
figure. The plane of the loop is perpendicular to the field lines. The resistance of the loop is 0.4 ???? ,
and its inductance is negligible. The magnetic flux density (in Tesla) is a function of time, and is
given by ???? ( ???? ) = 0.25 sin ???????? , where ???? = 2???? ? 50 radian/second. The power absorbed (in Watt) by
the loop from the magnetic field is ________.

10 cm
5 cm


Q.12 A steady current ???? is flowing in the ? ???? direction through each of two infinitely long wires at
???? = ?
???? 2
as shown in the figure. The permeability of the medium is ???? 0
. The ???? ? ?
-field at (0,L,0) is
y
z
y=-L/2 y=L/2
x
Current=I Current=I
0

(A) ?
4 ???? 0
???? 3 ???????? ???? ? (B) +
4 ???? 0
???? 3 ???????? ???? ?
(C) 0
(D) ?
3 ???? 0
???? 4 ???????? ???? ?

Q.13 Consider the circuit shown in the figure. In this circuit R=1 k?, and C=1 ?F. The input voltage is
sinusoidal with a frequency of 50 Hz, represented as a phasor with magnitude ???? ???? and phase angle 0
radian as shown in the figure. The output voltage is represented as a phasor with magnitude ???? ???? and
phase angle ???? radian. What is the value of the output phase angle ???? (in radian) relative to the phase
angle of the input voltage?
+
-
R
R
C
C
v
o
= V
o
?
i
v = V
i
0

(A) 0 (B) ???? (C)
???? 2
?
(D) ?
???? 2
?


EE 3/14
FirstRanker.com - FirstRanker's Choice
GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.11 Consider a one-turn rectangular loop of wire placed in a uniform magnetic field as shown in the
figure. The plane of the loop is perpendicular to the field lines. The resistance of the loop is 0.4 ???? ,
and its inductance is negligible. The magnetic flux density (in Tesla) is a function of time, and is
given by ???? ( ???? ) = 0.25 sin ???????? , where ???? = 2???? ? 50 radian/second. The power absorbed (in Watt) by
the loop from the magnetic field is ________.

10 cm
5 cm


Q.12 A steady current ???? is flowing in the ? ???? direction through each of two infinitely long wires at
???? = ?
???? 2
as shown in the figure. The permeability of the medium is ???? 0
. The ???? ? ?
-field at (0,L,0) is
y
z
y=-L/2 y=L/2
x
Current=I Current=I
0

(A) ?
4 ???? 0
???? 3 ???????? ???? ? (B) +
4 ???? 0
???? 3 ???????? ???? ?
(C) 0
(D) ?
3 ???? 0
???? 4 ???????? ???? ?

Q.13 Consider the circuit shown in the figure. In this circuit R=1 k?, and C=1 ?F. The input voltage is
sinusoidal with a frequency of 50 Hz, represented as a phasor with magnitude ???? ???? and phase angle 0
radian as shown in the figure. The output voltage is represented as a phasor with magnitude ???? ???? and
phase angle ???? radian. What is the value of the output phase angle ???? (in radian) relative to the phase
angle of the input voltage?
+
-
R
R
C
C
v
o
= V
o
?
i
v = V
i
0

(A) 0 (B) ???? (C)
???? 2
?
(D) ?
???? 2
?


EE 3/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.14 In the given circuit, the silicon transistor has ???? = 75 and a collector voltage ???? ???? = 9 V. Then the
ratio of ???? ???? and ???? ???? is ________.
R
C
R
B
15 V
V
C


Q.15 In the 4 ? 1 multiplexer, the output F is given by F = A ? B. Find the required input ? ???? 3
???? 2
???? 1
???? 0
?.

I
0
s
0
I
1
I
2
I
3
s
1
A B
F
4 ? 1
MUX

(A) 1010 (B) 0110 (C) 1000 (D) 1110

Q.16 Consider a HVDC link which uses thyristor based line-commutated converters as shown in the
figure. For a power flow of 750 MW from System 1 to System 2, the voltages at the two ends, and
the current, are given by: ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = 1.5 kA. If the direction of power
flow is to be reversed (that is, from System 2 to System 1) without changing the electrical
connections, then which one of the following combinations is feasible?

System 1
System 2
I
V1 V2
+
-
+
-


(A) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = 1.5 kA
(B) ???? 1
= ?485 kV, ???? 2
= ?500 kV and ???? = 1.5 kA
(C) ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = ?1.5 kA
(D) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = ?1.5 kA

EE 4/14
FirstRanker.com - FirstRanker's Choice
GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.11 Consider a one-turn rectangular loop of wire placed in a uniform magnetic field as shown in the
figure. The plane of the loop is perpendicular to the field lines. The resistance of the loop is 0.4 ???? ,
and its inductance is negligible. The magnetic flux density (in Tesla) is a function of time, and is
given by ???? ( ???? ) = 0.25 sin ???????? , where ???? = 2???? ? 50 radian/second. The power absorbed (in Watt) by
the loop from the magnetic field is ________.

10 cm
5 cm


Q.12 A steady current ???? is flowing in the ? ???? direction through each of two infinitely long wires at
???? = ?
???? 2
as shown in the figure. The permeability of the medium is ???? 0
. The ???? ? ?
-field at (0,L,0) is
y
z
y=-L/2 y=L/2
x
Current=I Current=I
0

(A) ?
4 ???? 0
???? 3 ???????? ???? ? (B) +
4 ???? 0
???? 3 ???????? ???? ?
(C) 0
(D) ?
3 ???? 0
???? 4 ???????? ???? ?

Q.13 Consider the circuit shown in the figure. In this circuit R=1 k?, and C=1 ?F. The input voltage is
sinusoidal with a frequency of 50 Hz, represented as a phasor with magnitude ???? ???? and phase angle 0
radian as shown in the figure. The output voltage is represented as a phasor with magnitude ???? ???? and
phase angle ???? radian. What is the value of the output phase angle ???? (in radian) relative to the phase
angle of the input voltage?
+
-
R
R
C
C
v
o
= V
o
?
i
v = V
i
0

(A) 0 (B) ???? (C)
???? 2
?
(D) ?
???? 2
?


EE 3/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.14 In the given circuit, the silicon transistor has ???? = 75 and a collector voltage ???? ???? = 9 V. Then the
ratio of ???? ???? and ???? ???? is ________.
R
C
R
B
15 V
V
C


Q.15 In the 4 ? 1 multiplexer, the output F is given by F = A ? B. Find the required input ? ???? 3
???? 2
???? 1
???? 0
?.

I
0
s
0
I
1
I
2
I
3
s
1
A B
F
4 ? 1
MUX

(A) 1010 (B) 0110 (C) 1000 (D) 1110

Q.16 Consider a HVDC link which uses thyristor based line-commutated converters as shown in the
figure. For a power flow of 750 MW from System 1 to System 2, the voltages at the two ends, and
the current, are given by: ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = 1.5 kA. If the direction of power
flow is to be reversed (that is, from System 2 to System 1) without changing the electrical
connections, then which one of the following combinations is feasible?

System 1
System 2
I
V1 V2
+
-
+
-


(A) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = 1.5 kA
(B) ???? 1
= ?485 kV, ???? 2
= ?500 kV and ???? = 1.5 kA
(C) ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = ?1.5 kA
(D) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = ?1.5 kA

EE 4/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.17 Base load power plants are

P: wind farms.
Q: run-of-river plants.
R: nuclear power plants.
S: diesel power plants.

(A) P, Q and S only (B) P, R and S only
(C) P, Q and R only (D) Q and R only

Q.18 The voltages developed across the 3 ? and 2 ? resistors shown in the figure are 6 ???? and 2 ????
respectively, with the polarity as marked. What is the power (in Watt) delivered by the 5 ???? voltage
source?
Network N1
Network N2
3 ?
5 V
2 ?
6 V
2 V
+
+
+
_
_
_

(A) 5 (B) 7 (C) 10 (D) 14

Q.19 For the given circuit, the Thevenin equivalent is to be determined. The Thevenin voltage, ???? Th
(in
Volt), seen from terminal AB is __________.














EE 5/14
FirstRanker.com - FirstRanker's Choice
GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.11 Consider a one-turn rectangular loop of wire placed in a uniform magnetic field as shown in the
figure. The plane of the loop is perpendicular to the field lines. The resistance of the loop is 0.4 ???? ,
and its inductance is negligible. The magnetic flux density (in Tesla) is a function of time, and is
given by ???? ( ???? ) = 0.25 sin ???????? , where ???? = 2???? ? 50 radian/second. The power absorbed (in Watt) by
the loop from the magnetic field is ________.

10 cm
5 cm


Q.12 A steady current ???? is flowing in the ? ???? direction through each of two infinitely long wires at
???? = ?
???? 2
as shown in the figure. The permeability of the medium is ???? 0
. The ???? ? ?
-field at (0,L,0) is
y
z
y=-L/2 y=L/2
x
Current=I Current=I
0

(A) ?
4 ???? 0
???? 3 ???????? ???? ? (B) +
4 ???? 0
???? 3 ???????? ???? ?
(C) 0
(D) ?
3 ???? 0
???? 4 ???????? ???? ?

Q.13 Consider the circuit shown in the figure. In this circuit R=1 k?, and C=1 ?F. The input voltage is
sinusoidal with a frequency of 50 Hz, represented as a phasor with magnitude ???? ???? and phase angle 0
radian as shown in the figure. The output voltage is represented as a phasor with magnitude ???? ???? and
phase angle ???? radian. What is the value of the output phase angle ???? (in radian) relative to the phase
angle of the input voltage?
+
-
R
R
C
C
v
o
= V
o
?
i
v = V
i
0

(A) 0 (B) ???? (C)
???? 2
?
(D) ?
???? 2
?


EE 3/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.14 In the given circuit, the silicon transistor has ???? = 75 and a collector voltage ???? ???? = 9 V. Then the
ratio of ???? ???? and ???? ???? is ________.
R
C
R
B
15 V
V
C


Q.15 In the 4 ? 1 multiplexer, the output F is given by F = A ? B. Find the required input ? ???? 3
???? 2
???? 1
???? 0
?.

I
0
s
0
I
1
I
2
I
3
s
1
A B
F
4 ? 1
MUX

(A) 1010 (B) 0110 (C) 1000 (D) 1110

Q.16 Consider a HVDC link which uses thyristor based line-commutated converters as shown in the
figure. For a power flow of 750 MW from System 1 to System 2, the voltages at the two ends, and
the current, are given by: ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = 1.5 kA. If the direction of power
flow is to be reversed (that is, from System 2 to System 1) without changing the electrical
connections, then which one of the following combinations is feasible?

System 1
System 2
I
V1 V2
+
-
+
-


(A) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = 1.5 kA
(B) ???? 1
= ?485 kV, ???? 2
= ?500 kV and ???? = 1.5 kA
(C) ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = ?1.5 kA
(D) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = ?1.5 kA

EE 4/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.17 Base load power plants are

P: wind farms.
Q: run-of-river plants.
R: nuclear power plants.
S: diesel power plants.

(A) P, Q and S only (B) P, R and S only
(C) P, Q and R only (D) Q and R only

Q.18 The voltages developed across the 3 ? and 2 ? resistors shown in the figure are 6 ???? and 2 ????
respectively, with the polarity as marked. What is the power (in Watt) delivered by the 5 ???? voltage
source?
Network N1
Network N2
3 ?
5 V
2 ?
6 V
2 V
+
+
+
_
_
_

(A) 5 (B) 7 (C) 10 (D) 14

Q.19 For the given circuit, the Thevenin equivalent is to be determined. The Thevenin voltage, ???? Th
(in
Volt), seen from terminal AB is __________.














EE 5/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.20 An inductor is connected in parallel with a capacitor as shown in the figure.



As the frequency of current i is increased, the impedance (Z) of the network varies as
(A)

(B)

(C)


(D)



Q.21 A separately excited DC generator has an armature resistance of 0.1 ???? and negligible armature
inductance. At rated field current and rated rotor speed, its open-circuit voltage is 200 V.
When this generator is operated at half the rated speed, with half the rated field current, an un-
charged 1000 ?F capacitor is suddenly connected across the armature terminals. Assume that the
speed remains unchanged during the transient. At what time (in microsecond) after the capacitor is
connected will the voltage across it reach 25 V?
(A) 62.25 (B) 69.3 (C) 73.25 (D) 77.3


Q.22 The self inductance of the primary winding of a single phase, 50 Hz, transformer is 800 mH, and
that of the secondary winding is 600 mH. The mutual inductance between these two windings is
480 mH. The secondary winding of this transformer is short circuited and the primary winding is
connected to a 50 Hz, single phase, sinusoidal voltage source. The current flowing in both the
windings is less than their respective rated currents. The resistance of both windings can be
neglected. In this condition, what is the effective inductance (in mH) seen by the source?
(A) 416 (B) 440 (C) 200 (D) 920

Q.23 The primary mmf is least affected by the secondary terminal conditions in a
(A) power transformer. (B) potential transformer.
(C) current transformer. (D) distribution transformer.

L
C
Z
i
f
Z
Inductive
Capacitive
f
Z
Inductive
Capacitive
f
Z
Inductive Capacitive
f
Z
Inductive
Capacitive
EE 6/14
FirstRanker.com - FirstRanker's Choice
GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.11 Consider a one-turn rectangular loop of wire placed in a uniform magnetic field as shown in the
figure. The plane of the loop is perpendicular to the field lines. The resistance of the loop is 0.4 ???? ,
and its inductance is negligible. The magnetic flux density (in Tesla) is a function of time, and is
given by ???? ( ???? ) = 0.25 sin ???????? , where ???? = 2???? ? 50 radian/second. The power absorbed (in Watt) by
the loop from the magnetic field is ________.

10 cm
5 cm


Q.12 A steady current ???? is flowing in the ? ???? direction through each of two infinitely long wires at
???? = ?
???? 2
as shown in the figure. The permeability of the medium is ???? 0
. The ???? ? ?
-field at (0,L,0) is
y
z
y=-L/2 y=L/2
x
Current=I Current=I
0

(A) ?
4 ???? 0
???? 3 ???????? ???? ? (B) +
4 ???? 0
???? 3 ???????? ???? ?
(C) 0
(D) ?
3 ???? 0
???? 4 ???????? ???? ?

Q.13 Consider the circuit shown in the figure. In this circuit R=1 k?, and C=1 ?F. The input voltage is
sinusoidal with a frequency of 50 Hz, represented as a phasor with magnitude ???? ???? and phase angle 0
radian as shown in the figure. The output voltage is represented as a phasor with magnitude ???? ???? and
phase angle ???? radian. What is the value of the output phase angle ???? (in radian) relative to the phase
angle of the input voltage?
+
-
R
R
C
C
v
o
= V
o
?
i
v = V
i
0

(A) 0 (B) ???? (C)
???? 2
?
(D) ?
???? 2
?


EE 3/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.14 In the given circuit, the silicon transistor has ???? = 75 and a collector voltage ???? ???? = 9 V. Then the
ratio of ???? ???? and ???? ???? is ________.
R
C
R
B
15 V
V
C


Q.15 In the 4 ? 1 multiplexer, the output F is given by F = A ? B. Find the required input ? ???? 3
???? 2
???? 1
???? 0
?.

I
0
s
0
I
1
I
2
I
3
s
1
A B
F
4 ? 1
MUX

(A) 1010 (B) 0110 (C) 1000 (D) 1110

Q.16 Consider a HVDC link which uses thyristor based line-commutated converters as shown in the
figure. For a power flow of 750 MW from System 1 to System 2, the voltages at the two ends, and
the current, are given by: ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = 1.5 kA. If the direction of power
flow is to be reversed (that is, from System 2 to System 1) without changing the electrical
connections, then which one of the following combinations is feasible?

System 1
System 2
I
V1 V2
+
-
+
-


(A) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = 1.5 kA
(B) ???? 1
= ?485 kV, ???? 2
= ?500 kV and ???? = 1.5 kA
(C) ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = ?1.5 kA
(D) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = ?1.5 kA

EE 4/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.17 Base load power plants are

P: wind farms.
Q: run-of-river plants.
R: nuclear power plants.
S: diesel power plants.

(A) P, Q and S only (B) P, R and S only
(C) P, Q and R only (D) Q and R only

Q.18 The voltages developed across the 3 ? and 2 ? resistors shown in the figure are 6 ???? and 2 ????
respectively, with the polarity as marked. What is the power (in Watt) delivered by the 5 ???? voltage
source?
Network N1
Network N2
3 ?
5 V
2 ?
6 V
2 V
+
+
+
_
_
_

(A) 5 (B) 7 (C) 10 (D) 14

Q.19 For the given circuit, the Thevenin equivalent is to be determined. The Thevenin voltage, ???? Th
(in
Volt), seen from terminal AB is __________.














EE 5/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.20 An inductor is connected in parallel with a capacitor as shown in the figure.



As the frequency of current i is increased, the impedance (Z) of the network varies as
(A)

(B)

(C)


(D)



Q.21 A separately excited DC generator has an armature resistance of 0.1 ???? and negligible armature
inductance. At rated field current and rated rotor speed, its open-circuit voltage is 200 V.
When this generator is operated at half the rated speed, with half the rated field current, an un-
charged 1000 ?F capacitor is suddenly connected across the armature terminals. Assume that the
speed remains unchanged during the transient. At what time (in microsecond) after the capacitor is
connected will the voltage across it reach 25 V?
(A) 62.25 (B) 69.3 (C) 73.25 (D) 77.3


Q.22 The self inductance of the primary winding of a single phase, 50 Hz, transformer is 800 mH, and
that of the secondary winding is 600 mH. The mutual inductance between these two windings is
480 mH. The secondary winding of this transformer is short circuited and the primary winding is
connected to a 50 Hz, single phase, sinusoidal voltage source. The current flowing in both the
windings is less than their respective rated currents. The resistance of both windings can be
neglected. In this condition, what is the effective inductance (in mH) seen by the source?
(A) 416 (B) 440 (C) 200 (D) 920

Q.23 The primary mmf is least affected by the secondary terminal conditions in a
(A) power transformer. (B) potential transformer.
(C) current transformer. (D) distribution transformer.

L
C
Z
i
f
Z
Inductive
Capacitive
f
Z
Inductive
Capacitive
f
Z
Inductive Capacitive
f
Z
Inductive
Capacitive
EE 6/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.24 A Bode magnitude plot for the transfer function ???? ( ???? ) of a plant is shown in the figure. Which one
of the following transfer functions best describes the plant?
20 log |G(j2 ?f)|
f (Hz) 0.1 1 10 100 1 k 10 k 100 k
20
0
-20


(A)
1000( ???? +10)
???? +1000
(B)
10( ???? +10)
???? ( ???? +1000)
(C)
???? +1000
10 ???? ( ???? +10)
(D)
???? +1000
10( ???? +10)



Q.25 For the signal-flow graph shown in the figure, which one of the following expressions is equal to
the transfer function
???? ( ???? )
???? 2
( ???? )
?
???? 1
( ???? )=0
?
X
1
(s)
1
-1 -1
G
1 G
2
X
2
(s)
Y(s)


(A)
???? 1
1+ ???? 2
(1+ ???? 1
)
(B)
???? 2
1+ ???? 1
(1+ ???? 2
)
(C)
???? 1
1+ ???? 1
???? 2
(D)
???? 2
1+ ???? 1
???? 2


Q. 26 ? Q. 55 carry two mark each.


Q.26
The maximum value of ? ???? ? such that the matrix ?
?3 0 ?2
1 ?1 0
0 ???? ?2
? has three linearly independent
real eigenvectors is

(A)
2
3 ?3
(B)
1
3 ?3

(C)
1+2 ?3
3 ?3
(D)
1+ ?3
3 ?3


Q.27
A solution of the ordinary differential equation
???? 2
???? ???? ???? 2
+ 5
???????? ???????? + 6 ???? = 0 is such that ???? (0) = 2 and
???? (1) = ?
1 ?3 ???? ???? 3
. The value of
???????? ???????? (0) is _______.

EE 7/14
FirstRanker.com - FirstRanker's Choice
GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.11 Consider a one-turn rectangular loop of wire placed in a uniform magnetic field as shown in the
figure. The plane of the loop is perpendicular to the field lines. The resistance of the loop is 0.4 ???? ,
and its inductance is negligible. The magnetic flux density (in Tesla) is a function of time, and is
given by ???? ( ???? ) = 0.25 sin ???????? , where ???? = 2???? ? 50 radian/second. The power absorbed (in Watt) by
the loop from the magnetic field is ________.

10 cm
5 cm


Q.12 A steady current ???? is flowing in the ? ???? direction through each of two infinitely long wires at
???? = ?
???? 2
as shown in the figure. The permeability of the medium is ???? 0
. The ???? ? ?
-field at (0,L,0) is
y
z
y=-L/2 y=L/2
x
Current=I Current=I
0

(A) ?
4 ???? 0
???? 3 ???????? ???? ? (B) +
4 ???? 0
???? 3 ???????? ???? ?
(C) 0
(D) ?
3 ???? 0
???? 4 ???????? ???? ?

Q.13 Consider the circuit shown in the figure. In this circuit R=1 k?, and C=1 ?F. The input voltage is
sinusoidal with a frequency of 50 Hz, represented as a phasor with magnitude ???? ???? and phase angle 0
radian as shown in the figure. The output voltage is represented as a phasor with magnitude ???? ???? and
phase angle ???? radian. What is the value of the output phase angle ???? (in radian) relative to the phase
angle of the input voltage?
+
-
R
R
C
C
v
o
= V
o
?
i
v = V
i
0

(A) 0 (B) ???? (C)
???? 2
?
(D) ?
???? 2
?


EE 3/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.14 In the given circuit, the silicon transistor has ???? = 75 and a collector voltage ???? ???? = 9 V. Then the
ratio of ???? ???? and ???? ???? is ________.
R
C
R
B
15 V
V
C


Q.15 In the 4 ? 1 multiplexer, the output F is given by F = A ? B. Find the required input ? ???? 3
???? 2
???? 1
???? 0
?.

I
0
s
0
I
1
I
2
I
3
s
1
A B
F
4 ? 1
MUX

(A) 1010 (B) 0110 (C) 1000 (D) 1110

Q.16 Consider a HVDC link which uses thyristor based line-commutated converters as shown in the
figure. For a power flow of 750 MW from System 1 to System 2, the voltages at the two ends, and
the current, are given by: ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = 1.5 kA. If the direction of power
flow is to be reversed (that is, from System 2 to System 1) without changing the electrical
connections, then which one of the following combinations is feasible?

System 1
System 2
I
V1 V2
+
-
+
-


(A) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = 1.5 kA
(B) ???? 1
= ?485 kV, ???? 2
= ?500 kV and ???? = 1.5 kA
(C) ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = ?1.5 kA
(D) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = ?1.5 kA

EE 4/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.17 Base load power plants are

P: wind farms.
Q: run-of-river plants.
R: nuclear power plants.
S: diesel power plants.

(A) P, Q and S only (B) P, R and S only
(C) P, Q and R only (D) Q and R only

Q.18 The voltages developed across the 3 ? and 2 ? resistors shown in the figure are 6 ???? and 2 ????
respectively, with the polarity as marked. What is the power (in Watt) delivered by the 5 ???? voltage
source?
Network N1
Network N2
3 ?
5 V
2 ?
6 V
2 V
+
+
+
_
_
_

(A) 5 (B) 7 (C) 10 (D) 14

Q.19 For the given circuit, the Thevenin equivalent is to be determined. The Thevenin voltage, ???? Th
(in
Volt), seen from terminal AB is __________.














EE 5/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.20 An inductor is connected in parallel with a capacitor as shown in the figure.



As the frequency of current i is increased, the impedance (Z) of the network varies as
(A)

(B)

(C)


(D)



Q.21 A separately excited DC generator has an armature resistance of 0.1 ???? and negligible armature
inductance. At rated field current and rated rotor speed, its open-circuit voltage is 200 V.
When this generator is operated at half the rated speed, with half the rated field current, an un-
charged 1000 ?F capacitor is suddenly connected across the armature terminals. Assume that the
speed remains unchanged during the transient. At what time (in microsecond) after the capacitor is
connected will the voltage across it reach 25 V?
(A) 62.25 (B) 69.3 (C) 73.25 (D) 77.3


Q.22 The self inductance of the primary winding of a single phase, 50 Hz, transformer is 800 mH, and
that of the secondary winding is 600 mH. The mutual inductance between these two windings is
480 mH. The secondary winding of this transformer is short circuited and the primary winding is
connected to a 50 Hz, single phase, sinusoidal voltage source. The current flowing in both the
windings is less than their respective rated currents. The resistance of both windings can be
neglected. In this condition, what is the effective inductance (in mH) seen by the source?
(A) 416 (B) 440 (C) 200 (D) 920

Q.23 The primary mmf is least affected by the secondary terminal conditions in a
(A) power transformer. (B) potential transformer.
(C) current transformer. (D) distribution transformer.

L
C
Z
i
f
Z
Inductive
Capacitive
f
Z
Inductive
Capacitive
f
Z
Inductive Capacitive
f
Z
Inductive
Capacitive
EE 6/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.24 A Bode magnitude plot for the transfer function ???? ( ???? ) of a plant is shown in the figure. Which one
of the following transfer functions best describes the plant?
20 log |G(j2 ?f)|
f (Hz) 0.1 1 10 100 1 k 10 k 100 k
20
0
-20


(A)
1000( ???? +10)
???? +1000
(B)
10( ???? +10)
???? ( ???? +1000)
(C)
???? +1000
10 ???? ( ???? +10)
(D)
???? +1000
10( ???? +10)



Q.25 For the signal-flow graph shown in the figure, which one of the following expressions is equal to
the transfer function
???? ( ???? )
???? 2
( ???? )
?
???? 1
( ???? )=0
?
X
1
(s)
1
-1 -1
G
1 G
2
X
2
(s)
Y(s)


(A)
???? 1
1+ ???? 2
(1+ ???? 1
)
(B)
???? 2
1+ ???? 1
(1+ ???? 2
)
(C)
???? 1
1+ ???? 1
???? 2
(D)
???? 2
1+ ???? 1
???? 2


Q. 26 ? Q. 55 carry two mark each.


Q.26
The maximum value of ? ???? ? such that the matrix ?
?3 0 ?2
1 ?1 0
0 ???? ?2
? has three linearly independent
real eigenvectors is

(A)
2
3 ?3
(B)
1
3 ?3

(C)
1+2 ?3
3 ?3
(D)
1+ ?3
3 ?3


Q.27
A solution of the ordinary differential equation
???? 2
???? ???? ???? 2
+ 5
???????? ???????? + 6 ???? = 0 is such that ???? (0) = 2 and
???? (1) = ?
1 ?3 ???? ???? 3
. The value of
???????? ???????? (0) is _______.

EE 7/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.28 The signum function is given by
???????????? ( ???? ) = ?
???? | ???? |
; ???? ? 0

0; ???? = 0

The Fourier series expansion of ???????????? (cos( ???? )) has
(A) only sine terms with all harmonics.
(B) only cosine terms with all harmonics.
(C) only sine terms with even numbered harmonics.
(D) only cosine terms with odd numbered harmonics.

Q.29 Two players, A and B, alternately keep rolling a fair dice. The person to get a six first wins the
game. Given that player A starts the game, the probability that A wins the game is
(A) 5/11 (B) 1/2 (C) 7/13 (D) 6/11

Q.30 An unbalanced DC Wheatstone bridge is shown in the figure. At what value of ???? will the
magnitude of ???? 0
be maximum?

pR
R(1+x)
pR
R
E
V
0
+
_

(A) ?(1 + ???? )
(B) (1 + ???? )
(C) 1/ ?(1 + ???? ) (D) ?(1 ? ???? )

Q.31 The circuit shown is meant to supply a resistive load ???? ???? from two separate DC voltage sources. The
switches S1 and S2 are controlled so that only one of them is ON at any instant. S1 is turned on for
0.2 ms and S2 is turned on for 0.3 ms in a 0.5 ms switching cycle time period. Assuming
continuous conduction of the inductor current and negligible ripple on the capacitor voltage, the
output voltage ???? ???? (in Volt) across ???? ???? is ___________.

10V 5V
+
_
+
_
S1
S2
L
C R
L
V
o
+
_



EE 8/14
FirstRanker.com - FirstRanker's Choice
GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.11 Consider a one-turn rectangular loop of wire placed in a uniform magnetic field as shown in the
figure. The plane of the loop is perpendicular to the field lines. The resistance of the loop is 0.4 ???? ,
and its inductance is negligible. The magnetic flux density (in Tesla) is a function of time, and is
given by ???? ( ???? ) = 0.25 sin ???????? , where ???? = 2???? ? 50 radian/second. The power absorbed (in Watt) by
the loop from the magnetic field is ________.

10 cm
5 cm


Q.12 A steady current ???? is flowing in the ? ???? direction through each of two infinitely long wires at
???? = ?
???? 2
as shown in the figure. The permeability of the medium is ???? 0
. The ???? ? ?
-field at (0,L,0) is
y
z
y=-L/2 y=L/2
x
Current=I Current=I
0

(A) ?
4 ???? 0
???? 3 ???????? ???? ? (B) +
4 ???? 0
???? 3 ???????? ???? ?
(C) 0
(D) ?
3 ???? 0
???? 4 ???????? ???? ?

Q.13 Consider the circuit shown in the figure. In this circuit R=1 k?, and C=1 ?F. The input voltage is
sinusoidal with a frequency of 50 Hz, represented as a phasor with magnitude ???? ???? and phase angle 0
radian as shown in the figure. The output voltage is represented as a phasor with magnitude ???? ???? and
phase angle ???? radian. What is the value of the output phase angle ???? (in radian) relative to the phase
angle of the input voltage?
+
-
R
R
C
C
v
o
= V
o
?
i
v = V
i
0

(A) 0 (B) ???? (C)
???? 2
?
(D) ?
???? 2
?


EE 3/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.14 In the given circuit, the silicon transistor has ???? = 75 and a collector voltage ???? ???? = 9 V. Then the
ratio of ???? ???? and ???? ???? is ________.
R
C
R
B
15 V
V
C


Q.15 In the 4 ? 1 multiplexer, the output F is given by F = A ? B. Find the required input ? ???? 3
???? 2
???? 1
???? 0
?.

I
0
s
0
I
1
I
2
I
3
s
1
A B
F
4 ? 1
MUX

(A) 1010 (B) 0110 (C) 1000 (D) 1110

Q.16 Consider a HVDC link which uses thyristor based line-commutated converters as shown in the
figure. For a power flow of 750 MW from System 1 to System 2, the voltages at the two ends, and
the current, are given by: ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = 1.5 kA. If the direction of power
flow is to be reversed (that is, from System 2 to System 1) without changing the electrical
connections, then which one of the following combinations is feasible?

System 1
System 2
I
V1 V2
+
-
+
-


(A) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = 1.5 kA
(B) ???? 1
= ?485 kV, ???? 2
= ?500 kV and ???? = 1.5 kA
(C) ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = ?1.5 kA
(D) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = ?1.5 kA

EE 4/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.17 Base load power plants are

P: wind farms.
Q: run-of-river plants.
R: nuclear power plants.
S: diesel power plants.

(A) P, Q and S only (B) P, R and S only
(C) P, Q and R only (D) Q and R only

Q.18 The voltages developed across the 3 ? and 2 ? resistors shown in the figure are 6 ???? and 2 ????
respectively, with the polarity as marked. What is the power (in Watt) delivered by the 5 ???? voltage
source?
Network N1
Network N2
3 ?
5 V
2 ?
6 V
2 V
+
+
+
_
_
_

(A) 5 (B) 7 (C) 10 (D) 14

Q.19 For the given circuit, the Thevenin equivalent is to be determined. The Thevenin voltage, ???? Th
(in
Volt), seen from terminal AB is __________.














EE 5/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.20 An inductor is connected in parallel with a capacitor as shown in the figure.



As the frequency of current i is increased, the impedance (Z) of the network varies as
(A)

(B)

(C)


(D)



Q.21 A separately excited DC generator has an armature resistance of 0.1 ???? and negligible armature
inductance. At rated field current and rated rotor speed, its open-circuit voltage is 200 V.
When this generator is operated at half the rated speed, with half the rated field current, an un-
charged 1000 ?F capacitor is suddenly connected across the armature terminals. Assume that the
speed remains unchanged during the transient. At what time (in microsecond) after the capacitor is
connected will the voltage across it reach 25 V?
(A) 62.25 (B) 69.3 (C) 73.25 (D) 77.3


Q.22 The self inductance of the primary winding of a single phase, 50 Hz, transformer is 800 mH, and
that of the secondary winding is 600 mH. The mutual inductance between these two windings is
480 mH. The secondary winding of this transformer is short circuited and the primary winding is
connected to a 50 Hz, single phase, sinusoidal voltage source. The current flowing in both the
windings is less than their respective rated currents. The resistance of both windings can be
neglected. In this condition, what is the effective inductance (in mH) seen by the source?
(A) 416 (B) 440 (C) 200 (D) 920

Q.23 The primary mmf is least affected by the secondary terminal conditions in a
(A) power transformer. (B) potential transformer.
(C) current transformer. (D) distribution transformer.

L
C
Z
i
f
Z
Inductive
Capacitive
f
Z
Inductive
Capacitive
f
Z
Inductive Capacitive
f
Z
Inductive
Capacitive
EE 6/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.24 A Bode magnitude plot for the transfer function ???? ( ???? ) of a plant is shown in the figure. Which one
of the following transfer functions best describes the plant?
20 log |G(j2 ?f)|
f (Hz) 0.1 1 10 100 1 k 10 k 100 k
20
0
-20


(A)
1000( ???? +10)
???? +1000
(B)
10( ???? +10)
???? ( ???? +1000)
(C)
???? +1000
10 ???? ( ???? +10)
(D)
???? +1000
10( ???? +10)



Q.25 For the signal-flow graph shown in the figure, which one of the following expressions is equal to
the transfer function
???? ( ???? )
???? 2
( ???? )
?
???? 1
( ???? )=0
?
X
1
(s)
1
-1 -1
G
1 G
2
X
2
(s)
Y(s)


(A)
???? 1
1+ ???? 2
(1+ ???? 1
)
(B)
???? 2
1+ ???? 1
(1+ ???? 2
)
(C)
???? 1
1+ ???? 1
???? 2
(D)
???? 2
1+ ???? 1
???? 2


Q. 26 ? Q. 55 carry two mark each.


Q.26
The maximum value of ? ???? ? such that the matrix ?
?3 0 ?2
1 ?1 0
0 ???? ?2
? has three linearly independent
real eigenvectors is

(A)
2
3 ?3
(B)
1
3 ?3

(C)
1+2 ?3
3 ?3
(D)
1+ ?3
3 ?3


Q.27
A solution of the ordinary differential equation
???? 2
???? ???? ???? 2
+ 5
???????? ???????? + 6 ???? = 0 is such that ???? (0) = 2 and
???? (1) = ?
1 ?3 ???? ???? 3
. The value of
???????? ???????? (0) is _______.

EE 7/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.28 The signum function is given by
???????????? ( ???? ) = ?
???? | ???? |
; ???? ? 0

0; ???? = 0

The Fourier series expansion of ???????????? (cos( ???? )) has
(A) only sine terms with all harmonics.
(B) only cosine terms with all harmonics.
(C) only sine terms with even numbered harmonics.
(D) only cosine terms with odd numbered harmonics.

Q.29 Two players, A and B, alternately keep rolling a fair dice. The person to get a six first wins the
game. Given that player A starts the game, the probability that A wins the game is
(A) 5/11 (B) 1/2 (C) 7/13 (D) 6/11

Q.30 An unbalanced DC Wheatstone bridge is shown in the figure. At what value of ???? will the
magnitude of ???? 0
be maximum?

pR
R(1+x)
pR
R
E
V
0
+
_

(A) ?(1 + ???? )
(B) (1 + ???? )
(C) 1/ ?(1 + ???? ) (D) ?(1 ? ???? )

Q.31 The circuit shown is meant to supply a resistive load ???? ???? from two separate DC voltage sources. The
switches S1 and S2 are controlled so that only one of them is ON at any instant. S1 is turned on for
0.2 ms and S2 is turned on for 0.3 ms in a 0.5 ms switching cycle time period. Assuming
continuous conduction of the inductor current and negligible ripple on the capacitor voltage, the
output voltage ???? ???? (in Volt) across ???? ???? is ___________.

10V 5V
+
_
+
_
S1
S2
L
C R
L
V
o
+
_



EE 8/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.32 A self commutating switch SW, operated at duty cycle ? is used to control the load voltage as
shown in the figure


Under steady state operating conditions, the average voltage across the inductor and the capacitor
respectively, are
(A)
dc C L
V
? 1
1
V and 0 V
?
= = (B)
dc C dc L
V
? 1
1
V and V
2
?
V
?
= =
(C)
dc C L
V
? 1
?
V and 0 V
?
= = (D)
dc C dc L
V
? 1
?
V and V
2
?
V
?
= =


Q.33 The single-phase full-bridge voltage source inverter (VSI), shown in figure, has an output
frequency of 50 Hz. It uses unipolar pulse width modulation with switching frequency of 50 kHz
and modulation index of 0.7. For ???? ???????? = 100 V DC, ???? = 9.55 mH, ???? = 63.66 ?F, and ???? = 5 ?,
the amplitude of the fundamental component in the output voltage V
o
(in Volt) under steady-state is
________.
Full-bridge
VSI V
in
L
C
R
V
R V
o


Q.34 A 3-phase 50 Hz square wave (6-step) VSI feeds a 3-phase, 4 pole induction motor. The VSI line
voltage has a dominant 5
th
harmonic component. If the operating slip of the motor with respect to
fundamental component voltage is 0.04, the slip of the motor with respect to 5
th
harmonic
component of voltage is _________.

Q.35 Consider a discrete time signal given by

???? [ ???? ] = ( ?0.25)
???? ???? [ ???? ] + (0.5)
???? ???? [ ? ???? ? 1]

The region of convergence of its Z-transform would be
(A) the region inside the circle of radius 0.5 and centered at origin
(B) the region outside the circle of radius 0.25 and centered at origin
(C) the annular region between the two circles, both centered at origin and having radii 0.25 and 0.5
(D) the entire Z plane.

Q.36 A parallel plate capacitor is partially filled with glass of dielectric constant 4.0 as shown below. The
dielectric strengths of air and glass are 30 kV/cm and 300 kV/cm, respectively. The maximum
voltage (in kilovolts), which can be applied across the capacitor without any breakdown, is ______.


SW
Vdc
L
C RL
D
?
vL
vC
EE 9/14
FirstRanker.com - FirstRanker's Choice
GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.11 Consider a one-turn rectangular loop of wire placed in a uniform magnetic field as shown in the
figure. The plane of the loop is perpendicular to the field lines. The resistance of the loop is 0.4 ???? ,
and its inductance is negligible. The magnetic flux density (in Tesla) is a function of time, and is
given by ???? ( ???? ) = 0.25 sin ???????? , where ???? = 2???? ? 50 radian/second. The power absorbed (in Watt) by
the loop from the magnetic field is ________.

10 cm
5 cm


Q.12 A steady current ???? is flowing in the ? ???? direction through each of two infinitely long wires at
???? = ?
???? 2
as shown in the figure. The permeability of the medium is ???? 0
. The ???? ? ?
-field at (0,L,0) is
y
z
y=-L/2 y=L/2
x
Current=I Current=I
0

(A) ?
4 ???? 0
???? 3 ???????? ???? ? (B) +
4 ???? 0
???? 3 ???????? ???? ?
(C) 0
(D) ?
3 ???? 0
???? 4 ???????? ???? ?

Q.13 Consider the circuit shown in the figure. In this circuit R=1 k?, and C=1 ?F. The input voltage is
sinusoidal with a frequency of 50 Hz, represented as a phasor with magnitude ???? ???? and phase angle 0
radian as shown in the figure. The output voltage is represented as a phasor with magnitude ???? ???? and
phase angle ???? radian. What is the value of the output phase angle ???? (in radian) relative to the phase
angle of the input voltage?
+
-
R
R
C
C
v
o
= V
o
?
i
v = V
i
0

(A) 0 (B) ???? (C)
???? 2
?
(D) ?
???? 2
?


EE 3/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.14 In the given circuit, the silicon transistor has ???? = 75 and a collector voltage ???? ???? = 9 V. Then the
ratio of ???? ???? and ???? ???? is ________.
R
C
R
B
15 V
V
C


Q.15 In the 4 ? 1 multiplexer, the output F is given by F = A ? B. Find the required input ? ???? 3
???? 2
???? 1
???? 0
?.

I
0
s
0
I
1
I
2
I
3
s
1
A B
F
4 ? 1
MUX

(A) 1010 (B) 0110 (C) 1000 (D) 1110

Q.16 Consider a HVDC link which uses thyristor based line-commutated converters as shown in the
figure. For a power flow of 750 MW from System 1 to System 2, the voltages at the two ends, and
the current, are given by: ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = 1.5 kA. If the direction of power
flow is to be reversed (that is, from System 2 to System 1) without changing the electrical
connections, then which one of the following combinations is feasible?

System 1
System 2
I
V1 V2
+
-
+
-


(A) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = 1.5 kA
(B) ???? 1
= ?485 kV, ???? 2
= ?500 kV and ???? = 1.5 kA
(C) ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = ?1.5 kA
(D) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = ?1.5 kA

EE 4/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.17 Base load power plants are

P: wind farms.
Q: run-of-river plants.
R: nuclear power plants.
S: diesel power plants.

(A) P, Q and S only (B) P, R and S only
(C) P, Q and R only (D) Q and R only

Q.18 The voltages developed across the 3 ? and 2 ? resistors shown in the figure are 6 ???? and 2 ????
respectively, with the polarity as marked. What is the power (in Watt) delivered by the 5 ???? voltage
source?
Network N1
Network N2
3 ?
5 V
2 ?
6 V
2 V
+
+
+
_
_
_

(A) 5 (B) 7 (C) 10 (D) 14

Q.19 For the given circuit, the Thevenin equivalent is to be determined. The Thevenin voltage, ???? Th
(in
Volt), seen from terminal AB is __________.














EE 5/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.20 An inductor is connected in parallel with a capacitor as shown in the figure.



As the frequency of current i is increased, the impedance (Z) of the network varies as
(A)

(B)

(C)


(D)



Q.21 A separately excited DC generator has an armature resistance of 0.1 ???? and negligible armature
inductance. At rated field current and rated rotor speed, its open-circuit voltage is 200 V.
When this generator is operated at half the rated speed, with half the rated field current, an un-
charged 1000 ?F capacitor is suddenly connected across the armature terminals. Assume that the
speed remains unchanged during the transient. At what time (in microsecond) after the capacitor is
connected will the voltage across it reach 25 V?
(A) 62.25 (B) 69.3 (C) 73.25 (D) 77.3


Q.22 The self inductance of the primary winding of a single phase, 50 Hz, transformer is 800 mH, and
that of the secondary winding is 600 mH. The mutual inductance between these two windings is
480 mH. The secondary winding of this transformer is short circuited and the primary winding is
connected to a 50 Hz, single phase, sinusoidal voltage source. The current flowing in both the
windings is less than their respective rated currents. The resistance of both windings can be
neglected. In this condition, what is the effective inductance (in mH) seen by the source?
(A) 416 (B) 440 (C) 200 (D) 920

Q.23 The primary mmf is least affected by the secondary terminal conditions in a
(A) power transformer. (B) potential transformer.
(C) current transformer. (D) distribution transformer.

L
C
Z
i
f
Z
Inductive
Capacitive
f
Z
Inductive
Capacitive
f
Z
Inductive Capacitive
f
Z
Inductive
Capacitive
EE 6/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.24 A Bode magnitude plot for the transfer function ???? ( ???? ) of a plant is shown in the figure. Which one
of the following transfer functions best describes the plant?
20 log |G(j2 ?f)|
f (Hz) 0.1 1 10 100 1 k 10 k 100 k
20
0
-20


(A)
1000( ???? +10)
???? +1000
(B)
10( ???? +10)
???? ( ???? +1000)
(C)
???? +1000
10 ???? ( ???? +10)
(D)
???? +1000
10( ???? +10)



Q.25 For the signal-flow graph shown in the figure, which one of the following expressions is equal to
the transfer function
???? ( ???? )
???? 2
( ???? )
?
???? 1
( ???? )=0
?
X
1
(s)
1
-1 -1
G
1 G
2
X
2
(s)
Y(s)


(A)
???? 1
1+ ???? 2
(1+ ???? 1
)
(B)
???? 2
1+ ???? 1
(1+ ???? 2
)
(C)
???? 1
1+ ???? 1
???? 2
(D)
???? 2
1+ ???? 1
???? 2


Q. 26 ? Q. 55 carry two mark each.


Q.26
The maximum value of ? ???? ? such that the matrix ?
?3 0 ?2
1 ?1 0
0 ???? ?2
? has three linearly independent
real eigenvectors is

(A)
2
3 ?3
(B)
1
3 ?3

(C)
1+2 ?3
3 ?3
(D)
1+ ?3
3 ?3


Q.27
A solution of the ordinary differential equation
???? 2
???? ???? ???? 2
+ 5
???????? ???????? + 6 ???? = 0 is such that ???? (0) = 2 and
???? (1) = ?
1 ?3 ???? ???? 3
. The value of
???????? ???????? (0) is _______.

EE 7/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.28 The signum function is given by
???????????? ( ???? ) = ?
???? | ???? |
; ???? ? 0

0; ???? = 0

The Fourier series expansion of ???????????? (cos( ???? )) has
(A) only sine terms with all harmonics.
(B) only cosine terms with all harmonics.
(C) only sine terms with even numbered harmonics.
(D) only cosine terms with odd numbered harmonics.

Q.29 Two players, A and B, alternately keep rolling a fair dice. The person to get a six first wins the
game. Given that player A starts the game, the probability that A wins the game is
(A) 5/11 (B) 1/2 (C) 7/13 (D) 6/11

Q.30 An unbalanced DC Wheatstone bridge is shown in the figure. At what value of ???? will the
magnitude of ???? 0
be maximum?

pR
R(1+x)
pR
R
E
V
0
+
_

(A) ?(1 + ???? )
(B) (1 + ???? )
(C) 1/ ?(1 + ???? ) (D) ?(1 ? ???? )

Q.31 The circuit shown is meant to supply a resistive load ???? ???? from two separate DC voltage sources. The
switches S1 and S2 are controlled so that only one of them is ON at any instant. S1 is turned on for
0.2 ms and S2 is turned on for 0.3 ms in a 0.5 ms switching cycle time period. Assuming
continuous conduction of the inductor current and negligible ripple on the capacitor voltage, the
output voltage ???? ???? (in Volt) across ???? ???? is ___________.

10V 5V
+
_
+
_
S1
S2
L
C R
L
V
o
+
_



EE 8/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.32 A self commutating switch SW, operated at duty cycle ? is used to control the load voltage as
shown in the figure


Under steady state operating conditions, the average voltage across the inductor and the capacitor
respectively, are
(A)
dc C L
V
? 1
1
V and 0 V
?
= = (B)
dc C dc L
V
? 1
1
V and V
2
?
V
?
= =
(C)
dc C L
V
? 1
?
V and 0 V
?
= = (D)
dc C dc L
V
? 1
?
V and V
2
?
V
?
= =


Q.33 The single-phase full-bridge voltage source inverter (VSI), shown in figure, has an output
frequency of 50 Hz. It uses unipolar pulse width modulation with switching frequency of 50 kHz
and modulation index of 0.7. For ???? ???????? = 100 V DC, ???? = 9.55 mH, ???? = 63.66 ?F, and ???? = 5 ?,
the amplitude of the fundamental component in the output voltage V
o
(in Volt) under steady-state is
________.
Full-bridge
VSI V
in
L
C
R
V
R V
o


Q.34 A 3-phase 50 Hz square wave (6-step) VSI feeds a 3-phase, 4 pole induction motor. The VSI line
voltage has a dominant 5
th
harmonic component. If the operating slip of the motor with respect to
fundamental component voltage is 0.04, the slip of the motor with respect to 5
th
harmonic
component of voltage is _________.

Q.35 Consider a discrete time signal given by

???? [ ???? ] = ( ?0.25)
???? ???? [ ???? ] + (0.5)
???? ???? [ ? ???? ? 1]

The region of convergence of its Z-transform would be
(A) the region inside the circle of radius 0.5 and centered at origin
(B) the region outside the circle of radius 0.25 and centered at origin
(C) the annular region between the two circles, both centered at origin and having radii 0.25 and 0.5
(D) the entire Z plane.

Q.36 A parallel plate capacitor is partially filled with glass of dielectric constant 4.0 as shown below. The
dielectric strengths of air and glass are 30 kV/cm and 300 kV/cm, respectively. The maximum
voltage (in kilovolts), which can be applied across the capacitor without any breakdown, is ______.


SW
Vdc
L
C RL
D
?
vL
vC
EE 9/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.37 The figure shows a digital circuit constructed using negative edge triggered J-K flip flops. Assume
a starting state of Q
2
Q
1
Q
0
=000. This state Q
2
Q
1
Q
0
=000 will repeat after _______ number of cycles
of the clock CLK.

1
1 1
CLK
J
K
Q
Q
Clock
J
K
Q
Q
Clock
J
K
Q
Q
Clock
0
0
0
0 1
1
1
1 2
2
2
2
1


Q.38 ???? ( ???? , ???? , ???? , ???? ) = ? ???? (0,1,3,4,5,7,9,11,12,13,14,15) is a maxterm representation of a Boolean
function ???? ( ???? , ???? , ???? , ???? ) where A is the MSB and D is the LSB. The equivalent minimized
representation of this function is
(A) ( ???? + ???? ? + ???? )( ???? ? + ???? + ???? )
(B) ???? ???? ? ???? + ???? ? ????????
(C) ???? ? ???? ???? ?
+ ???? ???? ?
???? ???? ?
+ ???? ???? ?
???? ? ???? ?

(D) ( ???? + ???? ? + ???? )( ???? + ???? ?
+ ???? ? + ???? )( ???? ? + ???? + ???? + ???? )

Q.39 The op-amp shown in the figure has a finite gain A = 1000 and an infinite input resistance. A step-
voltage ???? ???? = 1 ???????? is applied at the input at time t = 0 as shown. Assuming that the operational
amplifier is not saturated, the time constant (in millisecond) of the output voltage ???? ???? is
+
-
R
C
i
v
v
o
+
+
_
_
A=1000
t=0 s
1mV
1k?
1?F

(A) 1001
(B) 101
(C) 11
(D) 1

Q.40 An 8-bit, unipolar Successive Approximation Register type ADC is used to convert 3.5 V to digital
equivalent output. The reference voltage is +5 V. The output of the ADC, at the end of 3rd clock
pulse after the start of conversion, is
(A) 1010 0000 (B) 1000 0000
(C) 0000 0001 (D) 0000 0011

Q.41 Consider the economic dispatch problem for a power plant having two generating units. The fuel
costs in Rs/MWh along with the generation limits for the two units are given below:
???? 1
( ???? 1
) = 0.01 ???? 1
2
+ 30 ???? 1
+ 10 ; 100 MW ? ???? 1
? 150 MW
???? 2
( ???? 2
) = 0.05 ???? 2
2
+ 10 ???? 2
+ 10 ; 100 MW ? ???? 2
? 180 MW

The incremental cost (in Rs/MWh) of the power plant when it supplies 200 MW is ______ .

EE 10/14
FirstRanker.com - FirstRanker's Choice
GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.11 Consider a one-turn rectangular loop of wire placed in a uniform magnetic field as shown in the
figure. The plane of the loop is perpendicular to the field lines. The resistance of the loop is 0.4 ???? ,
and its inductance is negligible. The magnetic flux density (in Tesla) is a function of time, and is
given by ???? ( ???? ) = 0.25 sin ???????? , where ???? = 2???? ? 50 radian/second. The power absorbed (in Watt) by
the loop from the magnetic field is ________.

10 cm
5 cm


Q.12 A steady current ???? is flowing in the ? ???? direction through each of two infinitely long wires at
???? = ?
???? 2
as shown in the figure. The permeability of the medium is ???? 0
. The ???? ? ?
-field at (0,L,0) is
y
z
y=-L/2 y=L/2
x
Current=I Current=I
0

(A) ?
4 ???? 0
???? 3 ???????? ???? ? (B) +
4 ???? 0
???? 3 ???????? ???? ?
(C) 0
(D) ?
3 ???? 0
???? 4 ???????? ???? ?

Q.13 Consider the circuit shown in the figure. In this circuit R=1 k?, and C=1 ?F. The input voltage is
sinusoidal with a frequency of 50 Hz, represented as a phasor with magnitude ???? ???? and phase angle 0
radian as shown in the figure. The output voltage is represented as a phasor with magnitude ???? ???? and
phase angle ???? radian. What is the value of the output phase angle ???? (in radian) relative to the phase
angle of the input voltage?
+
-
R
R
C
C
v
o
= V
o
?
i
v = V
i
0

(A) 0 (B) ???? (C)
???? 2
?
(D) ?
???? 2
?


EE 3/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.14 In the given circuit, the silicon transistor has ???? = 75 and a collector voltage ???? ???? = 9 V. Then the
ratio of ???? ???? and ???? ???? is ________.
R
C
R
B
15 V
V
C


Q.15 In the 4 ? 1 multiplexer, the output F is given by F = A ? B. Find the required input ? ???? 3
???? 2
???? 1
???? 0
?.

I
0
s
0
I
1
I
2
I
3
s
1
A B
F
4 ? 1
MUX

(A) 1010 (B) 0110 (C) 1000 (D) 1110

Q.16 Consider a HVDC link which uses thyristor based line-commutated converters as shown in the
figure. For a power flow of 750 MW from System 1 to System 2, the voltages at the two ends, and
the current, are given by: ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = 1.5 kA. If the direction of power
flow is to be reversed (that is, from System 2 to System 1) without changing the electrical
connections, then which one of the following combinations is feasible?

System 1
System 2
I
V1 V2
+
-
+
-


(A) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = 1.5 kA
(B) ???? 1
= ?485 kV, ???? 2
= ?500 kV and ???? = 1.5 kA
(C) ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = ?1.5 kA
(D) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = ?1.5 kA

EE 4/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.17 Base load power plants are

P: wind farms.
Q: run-of-river plants.
R: nuclear power plants.
S: diesel power plants.

(A) P, Q and S only (B) P, R and S only
(C) P, Q and R only (D) Q and R only

Q.18 The voltages developed across the 3 ? and 2 ? resistors shown in the figure are 6 ???? and 2 ????
respectively, with the polarity as marked. What is the power (in Watt) delivered by the 5 ???? voltage
source?
Network N1
Network N2
3 ?
5 V
2 ?
6 V
2 V
+
+
+
_
_
_

(A) 5 (B) 7 (C) 10 (D) 14

Q.19 For the given circuit, the Thevenin equivalent is to be determined. The Thevenin voltage, ???? Th
(in
Volt), seen from terminal AB is __________.














EE 5/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.20 An inductor is connected in parallel with a capacitor as shown in the figure.



As the frequency of current i is increased, the impedance (Z) of the network varies as
(A)

(B)

(C)


(D)



Q.21 A separately excited DC generator has an armature resistance of 0.1 ???? and negligible armature
inductance. At rated field current and rated rotor speed, its open-circuit voltage is 200 V.
When this generator is operated at half the rated speed, with half the rated field current, an un-
charged 1000 ?F capacitor is suddenly connected across the armature terminals. Assume that the
speed remains unchanged during the transient. At what time (in microsecond) after the capacitor is
connected will the voltage across it reach 25 V?
(A) 62.25 (B) 69.3 (C) 73.25 (D) 77.3


Q.22 The self inductance of the primary winding of a single phase, 50 Hz, transformer is 800 mH, and
that of the secondary winding is 600 mH. The mutual inductance between these two windings is
480 mH. The secondary winding of this transformer is short circuited and the primary winding is
connected to a 50 Hz, single phase, sinusoidal voltage source. The current flowing in both the
windings is less than their respective rated currents. The resistance of both windings can be
neglected. In this condition, what is the effective inductance (in mH) seen by the source?
(A) 416 (B) 440 (C) 200 (D) 920

Q.23 The primary mmf is least affected by the secondary terminal conditions in a
(A) power transformer. (B) potential transformer.
(C) current transformer. (D) distribution transformer.

L
C
Z
i
f
Z
Inductive
Capacitive
f
Z
Inductive
Capacitive
f
Z
Inductive Capacitive
f
Z
Inductive
Capacitive
EE 6/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.24 A Bode magnitude plot for the transfer function ???? ( ???? ) of a plant is shown in the figure. Which one
of the following transfer functions best describes the plant?
20 log |G(j2 ?f)|
f (Hz) 0.1 1 10 100 1 k 10 k 100 k
20
0
-20


(A)
1000( ???? +10)
???? +1000
(B)
10( ???? +10)
???? ( ???? +1000)
(C)
???? +1000
10 ???? ( ???? +10)
(D)
???? +1000
10( ???? +10)



Q.25 For the signal-flow graph shown in the figure, which one of the following expressions is equal to
the transfer function
???? ( ???? )
???? 2
( ???? )
?
???? 1
( ???? )=0
?
X
1
(s)
1
-1 -1
G
1 G
2
X
2
(s)
Y(s)


(A)
???? 1
1+ ???? 2
(1+ ???? 1
)
(B)
???? 2
1+ ???? 1
(1+ ???? 2
)
(C)
???? 1
1+ ???? 1
???? 2
(D)
???? 2
1+ ???? 1
???? 2


Q. 26 ? Q. 55 carry two mark each.


Q.26
The maximum value of ? ???? ? such that the matrix ?
?3 0 ?2
1 ?1 0
0 ???? ?2
? has three linearly independent
real eigenvectors is

(A)
2
3 ?3
(B)
1
3 ?3

(C)
1+2 ?3
3 ?3
(D)
1+ ?3
3 ?3


Q.27
A solution of the ordinary differential equation
???? 2
???? ???? ???? 2
+ 5
???????? ???????? + 6 ???? = 0 is such that ???? (0) = 2 and
???? (1) = ?
1 ?3 ???? ???? 3
. The value of
???????? ???????? (0) is _______.

EE 7/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.28 The signum function is given by
???????????? ( ???? ) = ?
???? | ???? |
; ???? ? 0

0; ???? = 0

The Fourier series expansion of ???????????? (cos( ???? )) has
(A) only sine terms with all harmonics.
(B) only cosine terms with all harmonics.
(C) only sine terms with even numbered harmonics.
(D) only cosine terms with odd numbered harmonics.

Q.29 Two players, A and B, alternately keep rolling a fair dice. The person to get a six first wins the
game. Given that player A starts the game, the probability that A wins the game is
(A) 5/11 (B) 1/2 (C) 7/13 (D) 6/11

Q.30 An unbalanced DC Wheatstone bridge is shown in the figure. At what value of ???? will the
magnitude of ???? 0
be maximum?

pR
R(1+x)
pR
R
E
V
0
+
_

(A) ?(1 + ???? )
(B) (1 + ???? )
(C) 1/ ?(1 + ???? ) (D) ?(1 ? ???? )

Q.31 The circuit shown is meant to supply a resistive load ???? ???? from two separate DC voltage sources. The
switches S1 and S2 are controlled so that only one of them is ON at any instant. S1 is turned on for
0.2 ms and S2 is turned on for 0.3 ms in a 0.5 ms switching cycle time period. Assuming
continuous conduction of the inductor current and negligible ripple on the capacitor voltage, the
output voltage ???? ???? (in Volt) across ???? ???? is ___________.

10V 5V
+
_
+
_
S1
S2
L
C R
L
V
o
+
_



EE 8/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.32 A self commutating switch SW, operated at duty cycle ? is used to control the load voltage as
shown in the figure


Under steady state operating conditions, the average voltage across the inductor and the capacitor
respectively, are
(A)
dc C L
V
? 1
1
V and 0 V
?
= = (B)
dc C dc L
V
? 1
1
V and V
2
?
V
?
= =
(C)
dc C L
V
? 1
?
V and 0 V
?
= = (D)
dc C dc L
V
? 1
?
V and V
2
?
V
?
= =


Q.33 The single-phase full-bridge voltage source inverter (VSI), shown in figure, has an output
frequency of 50 Hz. It uses unipolar pulse width modulation with switching frequency of 50 kHz
and modulation index of 0.7. For ???? ???????? = 100 V DC, ???? = 9.55 mH, ???? = 63.66 ?F, and ???? = 5 ?,
the amplitude of the fundamental component in the output voltage V
o
(in Volt) under steady-state is
________.
Full-bridge
VSI V
in
L
C
R
V
R V
o


Q.34 A 3-phase 50 Hz square wave (6-step) VSI feeds a 3-phase, 4 pole induction motor. The VSI line
voltage has a dominant 5
th
harmonic component. If the operating slip of the motor with respect to
fundamental component voltage is 0.04, the slip of the motor with respect to 5
th
harmonic
component of voltage is _________.

Q.35 Consider a discrete time signal given by

???? [ ???? ] = ( ?0.25)
???? ???? [ ???? ] + (0.5)
???? ???? [ ? ???? ? 1]

The region of convergence of its Z-transform would be
(A) the region inside the circle of radius 0.5 and centered at origin
(B) the region outside the circle of radius 0.25 and centered at origin
(C) the annular region between the two circles, both centered at origin and having radii 0.25 and 0.5
(D) the entire Z plane.

Q.36 A parallel plate capacitor is partially filled with glass of dielectric constant 4.0 as shown below. The
dielectric strengths of air and glass are 30 kV/cm and 300 kV/cm, respectively. The maximum
voltage (in kilovolts), which can be applied across the capacitor without any breakdown, is ______.


SW
Vdc
L
C RL
D
?
vL
vC
EE 9/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.37 The figure shows a digital circuit constructed using negative edge triggered J-K flip flops. Assume
a starting state of Q
2
Q
1
Q
0
=000. This state Q
2
Q
1
Q
0
=000 will repeat after _______ number of cycles
of the clock CLK.

1
1 1
CLK
J
K
Q
Q
Clock
J
K
Q
Q
Clock
J
K
Q
Q
Clock
0
0
0
0 1
1
1
1 2
2
2
2
1


Q.38 ???? ( ???? , ???? , ???? , ???? ) = ? ???? (0,1,3,4,5,7,9,11,12,13,14,15) is a maxterm representation of a Boolean
function ???? ( ???? , ???? , ???? , ???? ) where A is the MSB and D is the LSB. The equivalent minimized
representation of this function is
(A) ( ???? + ???? ? + ???? )( ???? ? + ???? + ???? )
(B) ???? ???? ? ???? + ???? ? ????????
(C) ???? ? ???? ???? ?
+ ???? ???? ?
???? ???? ?
+ ???? ???? ?
???? ? ???? ?

(D) ( ???? + ???? ? + ???? )( ???? + ???? ?
+ ???? ? + ???? )( ???? ? + ???? + ???? + ???? )

Q.39 The op-amp shown in the figure has a finite gain A = 1000 and an infinite input resistance. A step-
voltage ???? ???? = 1 ???????? is applied at the input at time t = 0 as shown. Assuming that the operational
amplifier is not saturated, the time constant (in millisecond) of the output voltage ???? ???? is
+
-
R
C
i
v
v
o
+
+
_
_
A=1000
t=0 s
1mV
1k?
1?F

(A) 1001
(B) 101
(C) 11
(D) 1

Q.40 An 8-bit, unipolar Successive Approximation Register type ADC is used to convert 3.5 V to digital
equivalent output. The reference voltage is +5 V. The output of the ADC, at the end of 3rd clock
pulse after the start of conversion, is
(A) 1010 0000 (B) 1000 0000
(C) 0000 0001 (D) 0000 0011

Q.41 Consider the economic dispatch problem for a power plant having two generating units. The fuel
costs in Rs/MWh along with the generation limits for the two units are given below:
???? 1
( ???? 1
) = 0.01 ???? 1
2
+ 30 ???? 1
+ 10 ; 100 MW ? ???? 1
? 150 MW
???? 2
( ???? 2
) = 0.05 ???? 2
2
+ 10 ???? 2
+ 10 ; 100 MW ? ???? 2
? 180 MW

The incremental cost (in Rs/MWh) of the power plant when it supplies 200 MW is ______ .

EE 10/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.42 Determine the correctness or otherwise of the following Assertion [a] and the Reason [r].

Assertion: Fast decoupled load flow method gives approximate load flow solution because it uses
several assumptions.

Reason: Accuracy depends on the power mismatch vector tolerance.
(A) Both [a] and [r] are true and [r] is the correct reason for [a].
(B) Both [a] and [r] are true but [r] is not the correct reason for [a].
(C) Both [a] and [r] are false.
(D) [a] is false and [r] is true.

Q.43 A 50 Hz generating unit has H-constant of 2 MJ/MVA. The machine is initially operating in steady
state at synchronous speed, and producing 1 pu of real power. The initial value of the rotor angle ?
is
?
5 , when a bolted three phase to ground short circuit fault occurs at the terminal of the generator.
Assuming the input mechanical power to remain at 1 pu, the value of ? in degrees, 0.02 second after
the fault is _________.

Q.44 A sustained three-phase fault occurs in the power system shown in the figure. The current and
voltage phasors during the fault (on a common reference), after the natural transients have died
down, are also shown. Where is the fault located?
P
R
Q S
I1
I2
I3
I4
V1
V2
V1
V2
Transmission Line
Transmission Line
I2
I4
I1
I3

(A) Location P (B) Location Q (C) Location R (D) Location S

Q.45 The circuit shown in the figure has two sources connected in series. The instantaneous voltage of
the AC source (in Volt) is given by ???? ( ???? ) = 12 sin ???? . If the circuit is in steady state, then the rms
value of the current (in Ampere) flowing in the circuit is ______ .

1 ?
1 ?
+
v(t)
8 V


Q.46 In a linear two-port network, when 10 V is applied to Port 1, a current of 4 A flows through Port 2
when it is short-circuited. When 5 V is applied to Port 1, a current of 1.25 A flows through a 1 ?
resistance connected across Port 2. When 3 V is applied to Port 1, the current (in Ampere) through a
2 ? resistance connected across Port 2 is _______.


EE 11/14
FirstRanker.com - FirstRanker's Choice
GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.11 Consider a one-turn rectangular loop of wire placed in a uniform magnetic field as shown in the
figure. The plane of the loop is perpendicular to the field lines. The resistance of the loop is 0.4 ???? ,
and its inductance is negligible. The magnetic flux density (in Tesla) is a function of time, and is
given by ???? ( ???? ) = 0.25 sin ???????? , where ???? = 2???? ? 50 radian/second. The power absorbed (in Watt) by
the loop from the magnetic field is ________.

10 cm
5 cm


Q.12 A steady current ???? is flowing in the ? ???? direction through each of two infinitely long wires at
???? = ?
???? 2
as shown in the figure. The permeability of the medium is ???? 0
. The ???? ? ?
-field at (0,L,0) is
y
z
y=-L/2 y=L/2
x
Current=I Current=I
0

(A) ?
4 ???? 0
???? 3 ???????? ???? ? (B) +
4 ???? 0
???? 3 ???????? ???? ?
(C) 0
(D) ?
3 ???? 0
???? 4 ???????? ???? ?

Q.13 Consider the circuit shown in the figure. In this circuit R=1 k?, and C=1 ?F. The input voltage is
sinusoidal with a frequency of 50 Hz, represented as a phasor with magnitude ???? ???? and phase angle 0
radian as shown in the figure. The output voltage is represented as a phasor with magnitude ???? ???? and
phase angle ???? radian. What is the value of the output phase angle ???? (in radian) relative to the phase
angle of the input voltage?
+
-
R
R
C
C
v
o
= V
o
?
i
v = V
i
0

(A) 0 (B) ???? (C)
???? 2
?
(D) ?
???? 2
?


EE 3/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.14 In the given circuit, the silicon transistor has ???? = 75 and a collector voltage ???? ???? = 9 V. Then the
ratio of ???? ???? and ???? ???? is ________.
R
C
R
B
15 V
V
C


Q.15 In the 4 ? 1 multiplexer, the output F is given by F = A ? B. Find the required input ? ???? 3
???? 2
???? 1
???? 0
?.

I
0
s
0
I
1
I
2
I
3
s
1
A B
F
4 ? 1
MUX

(A) 1010 (B) 0110 (C) 1000 (D) 1110

Q.16 Consider a HVDC link which uses thyristor based line-commutated converters as shown in the
figure. For a power flow of 750 MW from System 1 to System 2, the voltages at the two ends, and
the current, are given by: ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = 1.5 kA. If the direction of power
flow is to be reversed (that is, from System 2 to System 1) without changing the electrical
connections, then which one of the following combinations is feasible?

System 1
System 2
I
V1 V2
+
-
+
-


(A) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = 1.5 kA
(B) ???? 1
= ?485 kV, ???? 2
= ?500 kV and ???? = 1.5 kA
(C) ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = ?1.5 kA
(D) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = ?1.5 kA

EE 4/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.17 Base load power plants are

P: wind farms.
Q: run-of-river plants.
R: nuclear power plants.
S: diesel power plants.

(A) P, Q and S only (B) P, R and S only
(C) P, Q and R only (D) Q and R only

Q.18 The voltages developed across the 3 ? and 2 ? resistors shown in the figure are 6 ???? and 2 ????
respectively, with the polarity as marked. What is the power (in Watt) delivered by the 5 ???? voltage
source?
Network N1
Network N2
3 ?
5 V
2 ?
6 V
2 V
+
+
+
_
_
_

(A) 5 (B) 7 (C) 10 (D) 14

Q.19 For the given circuit, the Thevenin equivalent is to be determined. The Thevenin voltage, ???? Th
(in
Volt), seen from terminal AB is __________.














EE 5/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.20 An inductor is connected in parallel with a capacitor as shown in the figure.



As the frequency of current i is increased, the impedance (Z) of the network varies as
(A)

(B)

(C)


(D)



Q.21 A separately excited DC generator has an armature resistance of 0.1 ???? and negligible armature
inductance. At rated field current and rated rotor speed, its open-circuit voltage is 200 V.
When this generator is operated at half the rated speed, with half the rated field current, an un-
charged 1000 ?F capacitor is suddenly connected across the armature terminals. Assume that the
speed remains unchanged during the transient. At what time (in microsecond) after the capacitor is
connected will the voltage across it reach 25 V?
(A) 62.25 (B) 69.3 (C) 73.25 (D) 77.3


Q.22 The self inductance of the primary winding of a single phase, 50 Hz, transformer is 800 mH, and
that of the secondary winding is 600 mH. The mutual inductance between these two windings is
480 mH. The secondary winding of this transformer is short circuited and the primary winding is
connected to a 50 Hz, single phase, sinusoidal voltage source. The current flowing in both the
windings is less than their respective rated currents. The resistance of both windings can be
neglected. In this condition, what is the effective inductance (in mH) seen by the source?
(A) 416 (B) 440 (C) 200 (D) 920

Q.23 The primary mmf is least affected by the secondary terminal conditions in a
(A) power transformer. (B) potential transformer.
(C) current transformer. (D) distribution transformer.

L
C
Z
i
f
Z
Inductive
Capacitive
f
Z
Inductive
Capacitive
f
Z
Inductive Capacitive
f
Z
Inductive
Capacitive
EE 6/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.24 A Bode magnitude plot for the transfer function ???? ( ???? ) of a plant is shown in the figure. Which one
of the following transfer functions best describes the plant?
20 log |G(j2 ?f)|
f (Hz) 0.1 1 10 100 1 k 10 k 100 k
20
0
-20


(A)
1000( ???? +10)
???? +1000
(B)
10( ???? +10)
???? ( ???? +1000)
(C)
???? +1000
10 ???? ( ???? +10)
(D)
???? +1000
10( ???? +10)



Q.25 For the signal-flow graph shown in the figure, which one of the following expressions is equal to
the transfer function
???? ( ???? )
???? 2
( ???? )
?
???? 1
( ???? )=0
?
X
1
(s)
1
-1 -1
G
1 G
2
X
2
(s)
Y(s)


(A)
???? 1
1+ ???? 2
(1+ ???? 1
)
(B)
???? 2
1+ ???? 1
(1+ ???? 2
)
(C)
???? 1
1+ ???? 1
???? 2
(D)
???? 2
1+ ???? 1
???? 2


Q. 26 ? Q. 55 carry two mark each.


Q.26
The maximum value of ? ???? ? such that the matrix ?
?3 0 ?2
1 ?1 0
0 ???? ?2
? has three linearly independent
real eigenvectors is

(A)
2
3 ?3
(B)
1
3 ?3

(C)
1+2 ?3
3 ?3
(D)
1+ ?3
3 ?3


Q.27
A solution of the ordinary differential equation
???? 2
???? ???? ???? 2
+ 5
???????? ???????? + 6 ???? = 0 is such that ???? (0) = 2 and
???? (1) = ?
1 ?3 ???? ???? 3
. The value of
???????? ???????? (0) is _______.

EE 7/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.28 The signum function is given by
???????????? ( ???? ) = ?
???? | ???? |
; ???? ? 0

0; ???? = 0

The Fourier series expansion of ???????????? (cos( ???? )) has
(A) only sine terms with all harmonics.
(B) only cosine terms with all harmonics.
(C) only sine terms with even numbered harmonics.
(D) only cosine terms with odd numbered harmonics.

Q.29 Two players, A and B, alternately keep rolling a fair dice. The person to get a six first wins the
game. Given that player A starts the game, the probability that A wins the game is
(A) 5/11 (B) 1/2 (C) 7/13 (D) 6/11

Q.30 An unbalanced DC Wheatstone bridge is shown in the figure. At what value of ???? will the
magnitude of ???? 0
be maximum?

pR
R(1+x)
pR
R
E
V
0
+
_

(A) ?(1 + ???? )
(B) (1 + ???? )
(C) 1/ ?(1 + ???? ) (D) ?(1 ? ???? )

Q.31 The circuit shown is meant to supply a resistive load ???? ???? from two separate DC voltage sources. The
switches S1 and S2 are controlled so that only one of them is ON at any instant. S1 is turned on for
0.2 ms and S2 is turned on for 0.3 ms in a 0.5 ms switching cycle time period. Assuming
continuous conduction of the inductor current and negligible ripple on the capacitor voltage, the
output voltage ???? ???? (in Volt) across ???? ???? is ___________.

10V 5V
+
_
+
_
S1
S2
L
C R
L
V
o
+
_



EE 8/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.32 A self commutating switch SW, operated at duty cycle ? is used to control the load voltage as
shown in the figure


Under steady state operating conditions, the average voltage across the inductor and the capacitor
respectively, are
(A)
dc C L
V
? 1
1
V and 0 V
?
= = (B)
dc C dc L
V
? 1
1
V and V
2
?
V
?
= =
(C)
dc C L
V
? 1
?
V and 0 V
?
= = (D)
dc C dc L
V
? 1
?
V and V
2
?
V
?
= =


Q.33 The single-phase full-bridge voltage source inverter (VSI), shown in figure, has an output
frequency of 50 Hz. It uses unipolar pulse width modulation with switching frequency of 50 kHz
and modulation index of 0.7. For ???? ???????? = 100 V DC, ???? = 9.55 mH, ???? = 63.66 ?F, and ???? = 5 ?,
the amplitude of the fundamental component in the output voltage V
o
(in Volt) under steady-state is
________.
Full-bridge
VSI V
in
L
C
R
V
R V
o


Q.34 A 3-phase 50 Hz square wave (6-step) VSI feeds a 3-phase, 4 pole induction motor. The VSI line
voltage has a dominant 5
th
harmonic component. If the operating slip of the motor with respect to
fundamental component voltage is 0.04, the slip of the motor with respect to 5
th
harmonic
component of voltage is _________.

Q.35 Consider a discrete time signal given by

???? [ ???? ] = ( ?0.25)
???? ???? [ ???? ] + (0.5)
???? ???? [ ? ???? ? 1]

The region of convergence of its Z-transform would be
(A) the region inside the circle of radius 0.5 and centered at origin
(B) the region outside the circle of radius 0.25 and centered at origin
(C) the annular region between the two circles, both centered at origin and having radii 0.25 and 0.5
(D) the entire Z plane.

Q.36 A parallel plate capacitor is partially filled with glass of dielectric constant 4.0 as shown below. The
dielectric strengths of air and glass are 30 kV/cm and 300 kV/cm, respectively. The maximum
voltage (in kilovolts), which can be applied across the capacitor without any breakdown, is ______.


SW
Vdc
L
C RL
D
?
vL
vC
EE 9/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.37 The figure shows a digital circuit constructed using negative edge triggered J-K flip flops. Assume
a starting state of Q
2
Q
1
Q
0
=000. This state Q
2
Q
1
Q
0
=000 will repeat after _______ number of cycles
of the clock CLK.

1
1 1
CLK
J
K
Q
Q
Clock
J
K
Q
Q
Clock
J
K
Q
Q
Clock
0
0
0
0 1
1
1
1 2
2
2
2
1


Q.38 ???? ( ???? , ???? , ???? , ???? ) = ? ???? (0,1,3,4,5,7,9,11,12,13,14,15) is a maxterm representation of a Boolean
function ???? ( ???? , ???? , ???? , ???? ) where A is the MSB and D is the LSB. The equivalent minimized
representation of this function is
(A) ( ???? + ???? ? + ???? )( ???? ? + ???? + ???? )
(B) ???? ???? ? ???? + ???? ? ????????
(C) ???? ? ???? ???? ?
+ ???? ???? ?
???? ???? ?
+ ???? ???? ?
???? ? ???? ?

(D) ( ???? + ???? ? + ???? )( ???? + ???? ?
+ ???? ? + ???? )( ???? ? + ???? + ???? + ???? )

Q.39 The op-amp shown in the figure has a finite gain A = 1000 and an infinite input resistance. A step-
voltage ???? ???? = 1 ???????? is applied at the input at time t = 0 as shown. Assuming that the operational
amplifier is not saturated, the time constant (in millisecond) of the output voltage ???? ???? is
+
-
R
C
i
v
v
o
+
+
_
_
A=1000
t=0 s
1mV
1k?
1?F

(A) 1001
(B) 101
(C) 11
(D) 1

Q.40 An 8-bit, unipolar Successive Approximation Register type ADC is used to convert 3.5 V to digital
equivalent output. The reference voltage is +5 V. The output of the ADC, at the end of 3rd clock
pulse after the start of conversion, is
(A) 1010 0000 (B) 1000 0000
(C) 0000 0001 (D) 0000 0011

Q.41 Consider the economic dispatch problem for a power plant having two generating units. The fuel
costs in Rs/MWh along with the generation limits for the two units are given below:
???? 1
( ???? 1
) = 0.01 ???? 1
2
+ 30 ???? 1
+ 10 ; 100 MW ? ???? 1
? 150 MW
???? 2
( ???? 2
) = 0.05 ???? 2
2
+ 10 ???? 2
+ 10 ; 100 MW ? ???? 2
? 180 MW

The incremental cost (in Rs/MWh) of the power plant when it supplies 200 MW is ______ .

EE 10/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.42 Determine the correctness or otherwise of the following Assertion [a] and the Reason [r].

Assertion: Fast decoupled load flow method gives approximate load flow solution because it uses
several assumptions.

Reason: Accuracy depends on the power mismatch vector tolerance.
(A) Both [a] and [r] are true and [r] is the correct reason for [a].
(B) Both [a] and [r] are true but [r] is not the correct reason for [a].
(C) Both [a] and [r] are false.
(D) [a] is false and [r] is true.

Q.43 A 50 Hz generating unit has H-constant of 2 MJ/MVA. The machine is initially operating in steady
state at synchronous speed, and producing 1 pu of real power. The initial value of the rotor angle ?
is
?
5 , when a bolted three phase to ground short circuit fault occurs at the terminal of the generator.
Assuming the input mechanical power to remain at 1 pu, the value of ? in degrees, 0.02 second after
the fault is _________.

Q.44 A sustained three-phase fault occurs in the power system shown in the figure. The current and
voltage phasors during the fault (on a common reference), after the natural transients have died
down, are also shown. Where is the fault located?
P
R
Q S
I1
I2
I3
I4
V1
V2
V1
V2
Transmission Line
Transmission Line
I2
I4
I1
I3

(A) Location P (B) Location Q (C) Location R (D) Location S

Q.45 The circuit shown in the figure has two sources connected in series. The instantaneous voltage of
the AC source (in Volt) is given by ???? ( ???? ) = 12 sin ???? . If the circuit is in steady state, then the rms
value of the current (in Ampere) flowing in the circuit is ______ .

1 ?
1 ?
+
v(t)
8 V


Q.46 In a linear two-port network, when 10 V is applied to Port 1, a current of 4 A flows through Port 2
when it is short-circuited. When 5 V is applied to Port 1, a current of 1.25 A flows through a 1 ?
resistance connected across Port 2. When 3 V is applied to Port 1, the current (in Ampere) through a
2 ? resistance connected across Port 2 is _______.


EE 11/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.47 In the given circuit, the parameter k is positive, and the power dissipated in the 2 ? resistor is
12.5W. The value of k is _________.


Q.48 A separately excited DC motor runs at 1000 rpm on no load when its armature terminals are
connected to a 200V DC source and the rated voltage is applied to the field winding. The armature
resistance of this motor is 1 ?. The no-load armature current is negligible. With the motor
developing its full load torque, the armature voltage is set so that the rotor speed is 500 rpm. When
the load torque is reduced to 50% of the full load value under the same armature voltage conditions,
the speed rises to 520 rpm. Neglecting the rotational losses, the full load armature current (in
Ampere) is _______.

Q.49 A DC motor has the following specifications: 10 hp, 37.5 A, 230 V; flux/pole = 0.01 Wb, number
of poles = 4, number of conductors = 666, number of parallel paths = 2. Armature resistance =
0.267 ?. The armature reaction is negligible and rotational losses are 600 W. The motor operates
from a 230 V DC supply. If the motor runs at 1000 rpm, the output torque produced (in Nm) is ___-
________.

Q.50 A 200/400 V, 50 Hz, two-winding transformer is rated at 20 kVA. Its windings are connected as an
auto-transformer of rating 200/600 V. A resistive load of 12 ? is connected to the high voltage
(600 V) side of the auto-transformer. The value of equivalent load resistance (in Ohm) as seen from
low voltage side is _____.

Q.51 Two single-phase transformers T
1
and T
2
each rated at 500 kVA are operated in parallel. Percentage
impedances of T
1
and T
2
are (1 + j6) and (0.8 + j4.8), respectively. To share a load of 1000 kVA at
0.8 lagging power factor, the contribution of T
2
(in kVA) is ________.

EE 12/14
FirstRanker.com - FirstRanker's Choice
GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.11 Consider a one-turn rectangular loop of wire placed in a uniform magnetic field as shown in the
figure. The plane of the loop is perpendicular to the field lines. The resistance of the loop is 0.4 ???? ,
and its inductance is negligible. The magnetic flux density (in Tesla) is a function of time, and is
given by ???? ( ???? ) = 0.25 sin ???????? , where ???? = 2???? ? 50 radian/second. The power absorbed (in Watt) by
the loop from the magnetic field is ________.

10 cm
5 cm


Q.12 A steady current ???? is flowing in the ? ???? direction through each of two infinitely long wires at
???? = ?
???? 2
as shown in the figure. The permeability of the medium is ???? 0
. The ???? ? ?
-field at (0,L,0) is
y
z
y=-L/2 y=L/2
x
Current=I Current=I
0

(A) ?
4 ???? 0
???? 3 ???????? ???? ? (B) +
4 ???? 0
???? 3 ???????? ???? ?
(C) 0
(D) ?
3 ???? 0
???? 4 ???????? ???? ?

Q.13 Consider the circuit shown in the figure. In this circuit R=1 k?, and C=1 ?F. The input voltage is
sinusoidal with a frequency of 50 Hz, represented as a phasor with magnitude ???? ???? and phase angle 0
radian as shown in the figure. The output voltage is represented as a phasor with magnitude ???? ???? and
phase angle ???? radian. What is the value of the output phase angle ???? (in radian) relative to the phase
angle of the input voltage?
+
-
R
R
C
C
v
o
= V
o
?
i
v = V
i
0

(A) 0 (B) ???? (C)
???? 2
?
(D) ?
???? 2
?


EE 3/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.14 In the given circuit, the silicon transistor has ???? = 75 and a collector voltage ???? ???? = 9 V. Then the
ratio of ???? ???? and ???? ???? is ________.
R
C
R
B
15 V
V
C


Q.15 In the 4 ? 1 multiplexer, the output F is given by F = A ? B. Find the required input ? ???? 3
???? 2
???? 1
???? 0
?.

I
0
s
0
I
1
I
2
I
3
s
1
A B
F
4 ? 1
MUX

(A) 1010 (B) 0110 (C) 1000 (D) 1110

Q.16 Consider a HVDC link which uses thyristor based line-commutated converters as shown in the
figure. For a power flow of 750 MW from System 1 to System 2, the voltages at the two ends, and
the current, are given by: ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = 1.5 kA. If the direction of power
flow is to be reversed (that is, from System 2 to System 1) without changing the electrical
connections, then which one of the following combinations is feasible?

System 1
System 2
I
V1 V2
+
-
+
-


(A) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = 1.5 kA
(B) ???? 1
= ?485 kV, ???? 2
= ?500 kV and ???? = 1.5 kA
(C) ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = ?1.5 kA
(D) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = ?1.5 kA

EE 4/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.17 Base load power plants are

P: wind farms.
Q: run-of-river plants.
R: nuclear power plants.
S: diesel power plants.

(A) P, Q and S only (B) P, R and S only
(C) P, Q and R only (D) Q and R only

Q.18 The voltages developed across the 3 ? and 2 ? resistors shown in the figure are 6 ???? and 2 ????
respectively, with the polarity as marked. What is the power (in Watt) delivered by the 5 ???? voltage
source?
Network N1
Network N2
3 ?
5 V
2 ?
6 V
2 V
+
+
+
_
_
_

(A) 5 (B) 7 (C) 10 (D) 14

Q.19 For the given circuit, the Thevenin equivalent is to be determined. The Thevenin voltage, ???? Th
(in
Volt), seen from terminal AB is __________.














EE 5/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.20 An inductor is connected in parallel with a capacitor as shown in the figure.



As the frequency of current i is increased, the impedance (Z) of the network varies as
(A)

(B)

(C)


(D)



Q.21 A separately excited DC generator has an armature resistance of 0.1 ???? and negligible armature
inductance. At rated field current and rated rotor speed, its open-circuit voltage is 200 V.
When this generator is operated at half the rated speed, with half the rated field current, an un-
charged 1000 ?F capacitor is suddenly connected across the armature terminals. Assume that the
speed remains unchanged during the transient. At what time (in microsecond) after the capacitor is
connected will the voltage across it reach 25 V?
(A) 62.25 (B) 69.3 (C) 73.25 (D) 77.3


Q.22 The self inductance of the primary winding of a single phase, 50 Hz, transformer is 800 mH, and
that of the secondary winding is 600 mH. The mutual inductance between these two windings is
480 mH. The secondary winding of this transformer is short circuited and the primary winding is
connected to a 50 Hz, single phase, sinusoidal voltage source. The current flowing in both the
windings is less than their respective rated currents. The resistance of both windings can be
neglected. In this condition, what is the effective inductance (in mH) seen by the source?
(A) 416 (B) 440 (C) 200 (D) 920

Q.23 The primary mmf is least affected by the secondary terminal conditions in a
(A) power transformer. (B) potential transformer.
(C) current transformer. (D) distribution transformer.

L
C
Z
i
f
Z
Inductive
Capacitive
f
Z
Inductive
Capacitive
f
Z
Inductive Capacitive
f
Z
Inductive
Capacitive
EE 6/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.24 A Bode magnitude plot for the transfer function ???? ( ???? ) of a plant is shown in the figure. Which one
of the following transfer functions best describes the plant?
20 log |G(j2 ?f)|
f (Hz) 0.1 1 10 100 1 k 10 k 100 k
20
0
-20


(A)
1000( ???? +10)
???? +1000
(B)
10( ???? +10)
???? ( ???? +1000)
(C)
???? +1000
10 ???? ( ???? +10)
(D)
???? +1000
10( ???? +10)



Q.25 For the signal-flow graph shown in the figure, which one of the following expressions is equal to
the transfer function
???? ( ???? )
???? 2
( ???? )
?
???? 1
( ???? )=0
?
X
1
(s)
1
-1 -1
G
1 G
2
X
2
(s)
Y(s)


(A)
???? 1
1+ ???? 2
(1+ ???? 1
)
(B)
???? 2
1+ ???? 1
(1+ ???? 2
)
(C)
???? 1
1+ ???? 1
???? 2
(D)
???? 2
1+ ???? 1
???? 2


Q. 26 ? Q. 55 carry two mark each.


Q.26
The maximum value of ? ???? ? such that the matrix ?
?3 0 ?2
1 ?1 0
0 ???? ?2
? has three linearly independent
real eigenvectors is

(A)
2
3 ?3
(B)
1
3 ?3

(C)
1+2 ?3
3 ?3
(D)
1+ ?3
3 ?3


Q.27
A solution of the ordinary differential equation
???? 2
???? ???? ???? 2
+ 5
???????? ???????? + 6 ???? = 0 is such that ???? (0) = 2 and
???? (1) = ?
1 ?3 ???? ???? 3
. The value of
???????? ???????? (0) is _______.

EE 7/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.28 The signum function is given by
???????????? ( ???? ) = ?
???? | ???? |
; ???? ? 0

0; ???? = 0

The Fourier series expansion of ???????????? (cos( ???? )) has
(A) only sine terms with all harmonics.
(B) only cosine terms with all harmonics.
(C) only sine terms with even numbered harmonics.
(D) only cosine terms with odd numbered harmonics.

Q.29 Two players, A and B, alternately keep rolling a fair dice. The person to get a six first wins the
game. Given that player A starts the game, the probability that A wins the game is
(A) 5/11 (B) 1/2 (C) 7/13 (D) 6/11

Q.30 An unbalanced DC Wheatstone bridge is shown in the figure. At what value of ???? will the
magnitude of ???? 0
be maximum?

pR
R(1+x)
pR
R
E
V
0
+
_

(A) ?(1 + ???? )
(B) (1 + ???? )
(C) 1/ ?(1 + ???? ) (D) ?(1 ? ???? )

Q.31 The circuit shown is meant to supply a resistive load ???? ???? from two separate DC voltage sources. The
switches S1 and S2 are controlled so that only one of them is ON at any instant. S1 is turned on for
0.2 ms and S2 is turned on for 0.3 ms in a 0.5 ms switching cycle time period. Assuming
continuous conduction of the inductor current and negligible ripple on the capacitor voltage, the
output voltage ???? ???? (in Volt) across ???? ???? is ___________.

10V 5V
+
_
+
_
S1
S2
L
C R
L
V
o
+
_



EE 8/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.32 A self commutating switch SW, operated at duty cycle ? is used to control the load voltage as
shown in the figure


Under steady state operating conditions, the average voltage across the inductor and the capacitor
respectively, are
(A)
dc C L
V
? 1
1
V and 0 V
?
= = (B)
dc C dc L
V
? 1
1
V and V
2
?
V
?
= =
(C)
dc C L
V
? 1
?
V and 0 V
?
= = (D)
dc C dc L
V
? 1
?
V and V
2
?
V
?
= =


Q.33 The single-phase full-bridge voltage source inverter (VSI), shown in figure, has an output
frequency of 50 Hz. It uses unipolar pulse width modulation with switching frequency of 50 kHz
and modulation index of 0.7. For ???? ???????? = 100 V DC, ???? = 9.55 mH, ???? = 63.66 ?F, and ???? = 5 ?,
the amplitude of the fundamental component in the output voltage V
o
(in Volt) under steady-state is
________.
Full-bridge
VSI V
in
L
C
R
V
R V
o


Q.34 A 3-phase 50 Hz square wave (6-step) VSI feeds a 3-phase, 4 pole induction motor. The VSI line
voltage has a dominant 5
th
harmonic component. If the operating slip of the motor with respect to
fundamental component voltage is 0.04, the slip of the motor with respect to 5
th
harmonic
component of voltage is _________.

Q.35 Consider a discrete time signal given by

???? [ ???? ] = ( ?0.25)
???? ???? [ ???? ] + (0.5)
???? ???? [ ? ???? ? 1]

The region of convergence of its Z-transform would be
(A) the region inside the circle of radius 0.5 and centered at origin
(B) the region outside the circle of radius 0.25 and centered at origin
(C) the annular region between the two circles, both centered at origin and having radii 0.25 and 0.5
(D) the entire Z plane.

Q.36 A parallel plate capacitor is partially filled with glass of dielectric constant 4.0 as shown below. The
dielectric strengths of air and glass are 30 kV/cm and 300 kV/cm, respectively. The maximum
voltage (in kilovolts), which can be applied across the capacitor without any breakdown, is ______.


SW
Vdc
L
C RL
D
?
vL
vC
EE 9/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.37 The figure shows a digital circuit constructed using negative edge triggered J-K flip flops. Assume
a starting state of Q
2
Q
1
Q
0
=000. This state Q
2
Q
1
Q
0
=000 will repeat after _______ number of cycles
of the clock CLK.

1
1 1
CLK
J
K
Q
Q
Clock
J
K
Q
Q
Clock
J
K
Q
Q
Clock
0
0
0
0 1
1
1
1 2
2
2
2
1


Q.38 ???? ( ???? , ???? , ???? , ???? ) = ? ???? (0,1,3,4,5,7,9,11,12,13,14,15) is a maxterm representation of a Boolean
function ???? ( ???? , ???? , ???? , ???? ) where A is the MSB and D is the LSB. The equivalent minimized
representation of this function is
(A) ( ???? + ???? ? + ???? )( ???? ? + ???? + ???? )
(B) ???? ???? ? ???? + ???? ? ????????
(C) ???? ? ???? ???? ?
+ ???? ???? ?
???? ???? ?
+ ???? ???? ?
???? ? ???? ?

(D) ( ???? + ???? ? + ???? )( ???? + ???? ?
+ ???? ? + ???? )( ???? ? + ???? + ???? + ???? )

Q.39 The op-amp shown in the figure has a finite gain A = 1000 and an infinite input resistance. A step-
voltage ???? ???? = 1 ???????? is applied at the input at time t = 0 as shown. Assuming that the operational
amplifier is not saturated, the time constant (in millisecond) of the output voltage ???? ???? is
+
-
R
C
i
v
v
o
+
+
_
_
A=1000
t=0 s
1mV
1k?
1?F

(A) 1001
(B) 101
(C) 11
(D) 1

Q.40 An 8-bit, unipolar Successive Approximation Register type ADC is used to convert 3.5 V to digital
equivalent output. The reference voltage is +5 V. The output of the ADC, at the end of 3rd clock
pulse after the start of conversion, is
(A) 1010 0000 (B) 1000 0000
(C) 0000 0001 (D) 0000 0011

Q.41 Consider the economic dispatch problem for a power plant having two generating units. The fuel
costs in Rs/MWh along with the generation limits for the two units are given below:
???? 1
( ???? 1
) = 0.01 ???? 1
2
+ 30 ???? 1
+ 10 ; 100 MW ? ???? 1
? 150 MW
???? 2
( ???? 2
) = 0.05 ???? 2
2
+ 10 ???? 2
+ 10 ; 100 MW ? ???? 2
? 180 MW

The incremental cost (in Rs/MWh) of the power plant when it supplies 200 MW is ______ .

EE 10/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.42 Determine the correctness or otherwise of the following Assertion [a] and the Reason [r].

Assertion: Fast decoupled load flow method gives approximate load flow solution because it uses
several assumptions.

Reason: Accuracy depends on the power mismatch vector tolerance.
(A) Both [a] and [r] are true and [r] is the correct reason for [a].
(B) Both [a] and [r] are true but [r] is not the correct reason for [a].
(C) Both [a] and [r] are false.
(D) [a] is false and [r] is true.

Q.43 A 50 Hz generating unit has H-constant of 2 MJ/MVA. The machine is initially operating in steady
state at synchronous speed, and producing 1 pu of real power. The initial value of the rotor angle ?
is
?
5 , when a bolted three phase to ground short circuit fault occurs at the terminal of the generator.
Assuming the input mechanical power to remain at 1 pu, the value of ? in degrees, 0.02 second after
the fault is _________.

Q.44 A sustained three-phase fault occurs in the power system shown in the figure. The current and
voltage phasors during the fault (on a common reference), after the natural transients have died
down, are also shown. Where is the fault located?
P
R
Q S
I1
I2
I3
I4
V1
V2
V1
V2
Transmission Line
Transmission Line
I2
I4
I1
I3

(A) Location P (B) Location Q (C) Location R (D) Location S

Q.45 The circuit shown in the figure has two sources connected in series. The instantaneous voltage of
the AC source (in Volt) is given by ???? ( ???? ) = 12 sin ???? . If the circuit is in steady state, then the rms
value of the current (in Ampere) flowing in the circuit is ______ .

1 ?
1 ?
+
v(t)
8 V


Q.46 In a linear two-port network, when 10 V is applied to Port 1, a current of 4 A flows through Port 2
when it is short-circuited. When 5 V is applied to Port 1, a current of 1.25 A flows through a 1 ?
resistance connected across Port 2. When 3 V is applied to Port 1, the current (in Ampere) through a
2 ? resistance connected across Port 2 is _______.


EE 11/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.47 In the given circuit, the parameter k is positive, and the power dissipated in the 2 ? resistor is
12.5W. The value of k is _________.


Q.48 A separately excited DC motor runs at 1000 rpm on no load when its armature terminals are
connected to a 200V DC source and the rated voltage is applied to the field winding. The armature
resistance of this motor is 1 ?. The no-load armature current is negligible. With the motor
developing its full load torque, the armature voltage is set so that the rotor speed is 500 rpm. When
the load torque is reduced to 50% of the full load value under the same armature voltage conditions,
the speed rises to 520 rpm. Neglecting the rotational losses, the full load armature current (in
Ampere) is _______.

Q.49 A DC motor has the following specifications: 10 hp, 37.5 A, 230 V; flux/pole = 0.01 Wb, number
of poles = 4, number of conductors = 666, number of parallel paths = 2. Armature resistance =
0.267 ?. The armature reaction is negligible and rotational losses are 600 W. The motor operates
from a 230 V DC supply. If the motor runs at 1000 rpm, the output torque produced (in Nm) is ___-
________.

Q.50 A 200/400 V, 50 Hz, two-winding transformer is rated at 20 kVA. Its windings are connected as an
auto-transformer of rating 200/600 V. A resistive load of 12 ? is connected to the high voltage
(600 V) side of the auto-transformer. The value of equivalent load resistance (in Ohm) as seen from
low voltage side is _____.

Q.51 Two single-phase transformers T
1
and T
2
each rated at 500 kVA are operated in parallel. Percentage
impedances of T
1
and T
2
are (1 + j6) and (0.8 + j4.8), respectively. To share a load of 1000 kVA at
0.8 lagging power factor, the contribution of T
2
(in kVA) is ________.

EE 12/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.52 In the signal flow diagram given in the figure, ???? 1
and ???? 2
are possible inputs whereas ???? 1
and ???? 2
are
possible outputs. When would the SISO system derived from this diagram be controllable and
observable?
u1
u2
5
-1
1
-2
2
x1
x2
y1
y2
1/s
1
1
1
1
1
1/s
1/s

(A) When ???? 1
is the only input and ???? 1
is the only output.
(B) When ???? 2
is the only input and ???? 1
is the only output.
(C) When ???? 1
is the only input and ???? 2
is the only output.
(D) When ???? 2
is the only input and ???? 2
is the only output.

Q.53 The transfer function of a second order real system with a perfectly flat magnitude response of
unity has a pole at (2 ? ???? 3). List all the poles and zeroes.
(A) Poles at (2 ? ???? 3), no zeroes.
(B) Poles at (?2 ? ???? 3), one zero at origin.
(C) Poles at (2 ? ???? 3), ( ?2 + ???? 3), zeroes at ( ?2 ? ???? 3), (2 + ???? 3).
(D) Poles at (2 ? ???? 3), zeroes at ( ?2 ? ???? 3).

Q.54
Find the transfer function
???? ( ???? )
???? ( ???? )
of the system given below.
G
1
H Y(s) X(s)
+
_
G
2
+
_
+
+
Y(s)


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

(C)
???? 1
+ ???? 2
1+ ???? ( ???? 1
+ ???? 2
)
(D)
???? 1
+ ???? 2
1 ? ???? ( ???? 1
+ ???? 2
)



EE 13/14
FirstRanker.com - FirstRanker's Choice
GATE 2015 SET1 ELECTRICAL ? EE
Q. 1 ? Q. 25 carry one mark each.
Q.1 A random variable ???? has probability density function ???? ( ???? ) as given below:

???? ( ???? ) = ?
???? + ???????? ???????????? 0 < ???? < 1
0 otherwise


If the expected value ???? [ ???? ] = 2/3, then ???????? [ ???? < 0.5] is _____________.

Q.2 If a continuous function ???? ( ???? ) does not have a root in the interval [ ???? , ???? ], then which one of the
following statements is TRUE?
(A) ???? ( ???? ) ? ???? ( ???? ) = 0
(B) ???? ( ???? ) ? ???? ( ???? ) < 0
(C) ???? ( ???? ) ? ???? ( ???? ) > 0
(D) ???? ( ???? )/ ???? ( ???? ) ? 0

Q.3 If the sum of the diagonal elements of a 2 ? 2 matrix is ?6, then the maximum possible value of
determinant of the matrix is ________.

Q.4
Consider a function r
r
f ?
1
2
=
?

, where r is the distance from the origin and r ? is the unit vector in
the radial direction. The divergence of this function over a sphere of radius R, which includes the
origin, is
(A) 0 (B) 2? (C) 4? (D) R?

Q.5 When the Wheatstone bridge shown in the figure is used to find the value of resistor ???? ???? , the
galvanometer G indicates zero current when ???? 1
= 50 ?, ???? 2
= 65 ? and ???? 3
= 100 ?. If ???? 3
is
known with ?5% tolerance on its nominal value of 100 ? , what is the range of ???? ???? in Ohms?

R1 R2
R3 RX
V
G

(A) [123.50, 136.50]
(B) [125.89, 134.12]
(C) [117.00, 143.00]
(D) [120.25, 139.75]

Q.6 A (0-50 A) moving coil ammeter has a voltage drop of 0.1 V across its terminals at full scale
deflection. The external shunt resistance (in milliohms) needed to extend its range to (0 ? 500 A) is
_______.

EE 1/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.7 Of the four characteristics given below, which are the major requirements for an instrumentation
amplifier?

P. High common mode rejection ratio
Q. High input impedance
R. High linearity
S. High output impedance
(A) P, Q and R only (B) P and R only
(C) P, Q and S only (D) Q, R and S only

Q.8 In the following chopper, the duty ratio of switch S is 0.4. If the inductor and capacitor are
sufficiently large to ensure continuous inductor current and ripple free capacitor voltage, the
charging current (in Ampere) of the 5 V battery, under steady-state, is_____.
C
20 V
3 ?
5 V
S
L


Q.9
A moving average function is given by ???? ( ???? ) =
1
???? ? ???? ( ???? ) ???????? ???? ???? ? ???? . If the input ???? is a sinusoidal signal
of frequency
1
2 ???? Hz, then in steady state, the output ???? will lag ???? (in degree) by ______ .

Q.10 The impulse response g(t) of a system, ???? , is as shown in Figure (a). What is the maximum value
attained by the impulse response of two cascaded blocks of ???? as shown in Figure (b)?
t
G G
1
1
g(t)
(a) (b)
0

(A)
2
3
(B)
3
4
(C)
4
5

(D) 1
EE 2/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.11 Consider a one-turn rectangular loop of wire placed in a uniform magnetic field as shown in the
figure. The plane of the loop is perpendicular to the field lines. The resistance of the loop is 0.4 ???? ,
and its inductance is negligible. The magnetic flux density (in Tesla) is a function of time, and is
given by ???? ( ???? ) = 0.25 sin ???????? , where ???? = 2???? ? 50 radian/second. The power absorbed (in Watt) by
the loop from the magnetic field is ________.

10 cm
5 cm


Q.12 A steady current ???? is flowing in the ? ???? direction through each of two infinitely long wires at
???? = ?
???? 2
as shown in the figure. The permeability of the medium is ???? 0
. The ???? ? ?
-field at (0,L,0) is
y
z
y=-L/2 y=L/2
x
Current=I Current=I
0

(A) ?
4 ???? 0
???? 3 ???????? ???? ? (B) +
4 ???? 0
???? 3 ???????? ???? ?
(C) 0
(D) ?
3 ???? 0
???? 4 ???????? ???? ?

Q.13 Consider the circuit shown in the figure. In this circuit R=1 k?, and C=1 ?F. The input voltage is
sinusoidal with a frequency of 50 Hz, represented as a phasor with magnitude ???? ???? and phase angle 0
radian as shown in the figure. The output voltage is represented as a phasor with magnitude ???? ???? and
phase angle ???? radian. What is the value of the output phase angle ???? (in radian) relative to the phase
angle of the input voltage?
+
-
R
R
C
C
v
o
= V
o
?
i
v = V
i
0

(A) 0 (B) ???? (C)
???? 2
?
(D) ?
???? 2
?


EE 3/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.14 In the given circuit, the silicon transistor has ???? = 75 and a collector voltage ???? ???? = 9 V. Then the
ratio of ???? ???? and ???? ???? is ________.
R
C
R
B
15 V
V
C


Q.15 In the 4 ? 1 multiplexer, the output F is given by F = A ? B. Find the required input ? ???? 3
???? 2
???? 1
???? 0
?.

I
0
s
0
I
1
I
2
I
3
s
1
A B
F
4 ? 1
MUX

(A) 1010 (B) 0110 (C) 1000 (D) 1110

Q.16 Consider a HVDC link which uses thyristor based line-commutated converters as shown in the
figure. For a power flow of 750 MW from System 1 to System 2, the voltages at the two ends, and
the current, are given by: ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = 1.5 kA. If the direction of power
flow is to be reversed (that is, from System 2 to System 1) without changing the electrical
connections, then which one of the following combinations is feasible?

System 1
System 2
I
V1 V2
+
-
+
-


(A) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = 1.5 kA
(B) ???? 1
= ?485 kV, ???? 2
= ?500 kV and ???? = 1.5 kA
(C) ???? 1
= 500 kV, ???? 2
= 485 kV and ???? = ?1.5 kA
(D) ???? 1
= ?500 kV, ???? 2
= ?485 kV and ???? = ?1.5 kA

EE 4/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.17 Base load power plants are

P: wind farms.
Q: run-of-river plants.
R: nuclear power plants.
S: diesel power plants.

(A) P, Q and S only (B) P, R and S only
(C) P, Q and R only (D) Q and R only

Q.18 The voltages developed across the 3 ? and 2 ? resistors shown in the figure are 6 ???? and 2 ????
respectively, with the polarity as marked. What is the power (in Watt) delivered by the 5 ???? voltage
source?
Network N1
Network N2
3 ?
5 V
2 ?
6 V
2 V
+
+
+
_
_
_

(A) 5 (B) 7 (C) 10 (D) 14

Q.19 For the given circuit, the Thevenin equivalent is to be determined. The Thevenin voltage, ???? Th
(in
Volt), seen from terminal AB is __________.














EE 5/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.20 An inductor is connected in parallel with a capacitor as shown in the figure.



As the frequency of current i is increased, the impedance (Z) of the network varies as
(A)

(B)

(C)


(D)



Q.21 A separately excited DC generator has an armature resistance of 0.1 ???? and negligible armature
inductance. At rated field current and rated rotor speed, its open-circuit voltage is 200 V.
When this generator is operated at half the rated speed, with half the rated field current, an un-
charged 1000 ?F capacitor is suddenly connected across the armature terminals. Assume that the
speed remains unchanged during the transient. At what time (in microsecond) after the capacitor is
connected will the voltage across it reach 25 V?
(A) 62.25 (B) 69.3 (C) 73.25 (D) 77.3


Q.22 The self inductance of the primary winding of a single phase, 50 Hz, transformer is 800 mH, and
that of the secondary winding is 600 mH. The mutual inductance between these two windings is
480 mH. The secondary winding of this transformer is short circuited and the primary winding is
connected to a 50 Hz, single phase, sinusoidal voltage source. The current flowing in both the
windings is less than their respective rated currents. The resistance of both windings can be
neglected. In this condition, what is the effective inductance (in mH) seen by the source?
(A) 416 (B) 440 (C) 200 (D) 920

Q.23 The primary mmf is least affected by the secondary terminal conditions in a
(A) power transformer. (B) potential transformer.
(C) current transformer. (D) distribution transformer.

L
C
Z
i
f
Z
Inductive
Capacitive
f
Z
Inductive
Capacitive
f
Z
Inductive Capacitive
f
Z
Inductive
Capacitive
EE 6/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.24 A Bode magnitude plot for the transfer function ???? ( ???? ) of a plant is shown in the figure. Which one
of the following transfer functions best describes the plant?
20 log |G(j2 ?f)|
f (Hz) 0.1 1 10 100 1 k 10 k 100 k
20
0
-20


(A)
1000( ???? +10)
???? +1000
(B)
10( ???? +10)
???? ( ???? +1000)
(C)
???? +1000
10 ???? ( ???? +10)
(D)
???? +1000
10( ???? +10)



Q.25 For the signal-flow graph shown in the figure, which one of the following expressions is equal to
the transfer function
???? ( ???? )
???? 2
( ???? )
?
???? 1
( ???? )=0
?
X
1
(s)
1
-1 -1
G
1 G
2
X
2
(s)
Y(s)


(A)
???? 1
1+ ???? 2
(1+ ???? 1
)
(B)
???? 2
1+ ???? 1
(1+ ???? 2
)
(C)
???? 1
1+ ???? 1
???? 2
(D)
???? 2
1+ ???? 1
???? 2


Q. 26 ? Q. 55 carry two mark each.


Q.26
The maximum value of ? ???? ? such that the matrix ?
?3 0 ?2
1 ?1 0
0 ???? ?2
? has three linearly independent
real eigenvectors is

(A)
2
3 ?3
(B)
1
3 ?3

(C)
1+2 ?3
3 ?3
(D)
1+ ?3
3 ?3


Q.27
A solution of the ordinary differential equation
???? 2
???? ???? ???? 2
+ 5
???????? ???????? + 6 ???? = 0 is such that ???? (0) = 2 and
???? (1) = ?
1 ?3 ???? ???? 3
. The value of
???????? ???????? (0) is _______.

EE 7/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.28 The signum function is given by
???????????? ( ???? ) = ?
???? | ???? |
; ???? ? 0

0; ???? = 0

The Fourier series expansion of ???????????? (cos( ???? )) has
(A) only sine terms with all harmonics.
(B) only cosine terms with all harmonics.
(C) only sine terms with even numbered harmonics.
(D) only cosine terms with odd numbered harmonics.

Q.29 Two players, A and B, alternately keep rolling a fair dice. The person to get a six first wins the
game. Given that player A starts the game, the probability that A wins the game is
(A) 5/11 (B) 1/2 (C) 7/13 (D) 6/11

Q.30 An unbalanced DC Wheatstone bridge is shown in the figure. At what value of ???? will the
magnitude of ???? 0
be maximum?

pR
R(1+x)
pR
R
E
V
0
+
_

(A) ?(1 + ???? )
(B) (1 + ???? )
(C) 1/ ?(1 + ???? ) (D) ?(1 ? ???? )

Q.31 The circuit shown is meant to supply a resistive load ???? ???? from two separate DC voltage sources. The
switches S1 and S2 are controlled so that only one of them is ON at any instant. S1 is turned on for
0.2 ms and S2 is turned on for 0.3 ms in a 0.5 ms switching cycle time period. Assuming
continuous conduction of the inductor current and negligible ripple on the capacitor voltage, the
output voltage ???? ???? (in Volt) across ???? ???? is ___________.

10V 5V
+
_
+
_
S1
S2
L
C R
L
V
o
+
_



EE 8/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.32 A self commutating switch SW, operated at duty cycle ? is used to control the load voltage as
shown in the figure


Under steady state operating conditions, the average voltage across the inductor and the capacitor
respectively, are
(A)
dc C L
V
? 1
1
V and 0 V
?
= = (B)
dc C dc L
V
? 1
1
V and V
2
?
V
?
= =
(C)
dc C L
V
? 1
?
V and 0 V
?
= = (D)
dc C dc L
V
? 1
?
V and V
2
?
V
?
= =


Q.33 The single-phase full-bridge voltage source inverter (VSI), shown in figure, has an output
frequency of 50 Hz. It uses unipolar pulse width modulation with switching frequency of 50 kHz
and modulation index of 0.7. For ???? ???????? = 100 V DC, ???? = 9.55 mH, ???? = 63.66 ?F, and ???? = 5 ?,
the amplitude of the fundamental component in the output voltage V
o
(in Volt) under steady-state is
________.
Full-bridge
VSI V
in
L
C
R
V
R V
o


Q.34 A 3-phase 50 Hz square wave (6-step) VSI feeds a 3-phase, 4 pole induction motor. The VSI line
voltage has a dominant 5
th
harmonic component. If the operating slip of the motor with respect to
fundamental component voltage is 0.04, the slip of the motor with respect to 5
th
harmonic
component of voltage is _________.

Q.35 Consider a discrete time signal given by

???? [ ???? ] = ( ?0.25)
???? ???? [ ???? ] + (0.5)
???? ???? [ ? ???? ? 1]

The region of convergence of its Z-transform would be
(A) the region inside the circle of radius 0.5 and centered at origin
(B) the region outside the circle of radius 0.25 and centered at origin
(C) the annular region between the two circles, both centered at origin and having radii 0.25 and 0.5
(D) the entire Z plane.

Q.36 A parallel plate capacitor is partially filled with glass of dielectric constant 4.0 as shown below. The
dielectric strengths of air and glass are 30 kV/cm and 300 kV/cm, respectively. The maximum
voltage (in kilovolts), which can be applied across the capacitor without any breakdown, is ______.


SW
Vdc
L
C RL
D
?
vL
vC
EE 9/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.37 The figure shows a digital circuit constructed using negative edge triggered J-K flip flops. Assume
a starting state of Q
2
Q
1
Q
0
=000. This state Q
2
Q
1
Q
0
=000 will repeat after _______ number of cycles
of the clock CLK.

1
1 1
CLK
J
K
Q
Q
Clock
J
K
Q
Q
Clock
J
K
Q
Q
Clock
0
0
0
0 1
1
1
1 2
2
2
2
1


Q.38 ???? ( ???? , ???? , ???? , ???? ) = ? ???? (0,1,3,4,5,7,9,11,12,13,14,15) is a maxterm representation of a Boolean
function ???? ( ???? , ???? , ???? , ???? ) where A is the MSB and D is the LSB. The equivalent minimized
representation of this function is
(A) ( ???? + ???? ? + ???? )( ???? ? + ???? + ???? )
(B) ???? ???? ? ???? + ???? ? ????????
(C) ???? ? ???? ???? ?
+ ???? ???? ?
???? ???? ?
+ ???? ???? ?
???? ? ???? ?

(D) ( ???? + ???? ? + ???? )( ???? + ???? ?
+ ???? ? + ???? )( ???? ? + ???? + ???? + ???? )

Q.39 The op-amp shown in the figure has a finite gain A = 1000 and an infinite input resistance. A step-
voltage ???? ???? = 1 ???????? is applied at the input at time t = 0 as shown. Assuming that the operational
amplifier is not saturated, the time constant (in millisecond) of the output voltage ???? ???? is
+
-
R
C
i
v
v
o
+
+
_
_
A=1000
t=0 s
1mV
1k?
1?F

(A) 1001
(B) 101
(C) 11
(D) 1

Q.40 An 8-bit, unipolar Successive Approximation Register type ADC is used to convert 3.5 V to digital
equivalent output. The reference voltage is +5 V. The output of the ADC, at the end of 3rd clock
pulse after the start of conversion, is
(A) 1010 0000 (B) 1000 0000
(C) 0000 0001 (D) 0000 0011

Q.41 Consider the economic dispatch problem for a power plant having two generating units. The fuel
costs in Rs/MWh along with the generation limits for the two units are given below:
???? 1
( ???? 1
) = 0.01 ???? 1
2
+ 30 ???? 1
+ 10 ; 100 MW ? ???? 1
? 150 MW
???? 2
( ???? 2
) = 0.05 ???? 2
2
+ 10 ???? 2
+ 10 ; 100 MW ? ???? 2
? 180 MW

The incremental cost (in Rs/MWh) of the power plant when it supplies 200 MW is ______ .

EE 10/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.42 Determine the correctness or otherwise of the following Assertion [a] and the Reason [r].

Assertion: Fast decoupled load flow method gives approximate load flow solution because it uses
several assumptions.

Reason: Accuracy depends on the power mismatch vector tolerance.
(A) Both [a] and [r] are true and [r] is the correct reason for [a].
(B) Both [a] and [r] are true but [r] is not the correct reason for [a].
(C) Both [a] and [r] are false.
(D) [a] is false and [r] is true.

Q.43 A 50 Hz generating unit has H-constant of 2 MJ/MVA. The machine is initially operating in steady
state at synchronous speed, and producing 1 pu of real power. The initial value of the rotor angle ?
is
?
5 , when a bolted three phase to ground short circuit fault occurs at the terminal of the generator.
Assuming the input mechanical power to remain at 1 pu, the value of ? in degrees, 0.02 second after
the fault is _________.

Q.44 A sustained three-phase fault occurs in the power system shown in the figure. The current and
voltage phasors during the fault (on a common reference), after the natural transients have died
down, are also shown. Where is the fault located?
P
R
Q S
I1
I2
I3
I4
V1
V2
V1
V2
Transmission Line
Transmission Line
I2
I4
I1
I3

(A) Location P (B) Location Q (C) Location R (D) Location S

Q.45 The circuit shown in the figure has two sources connected in series. The instantaneous voltage of
the AC source (in Volt) is given by ???? ( ???? ) = 12 sin ???? . If the circuit is in steady state, then the rms
value of the current (in Ampere) flowing in the circuit is ______ .

1 ?
1 ?
+
v(t)
8 V


Q.46 In a linear two-port network, when 10 V is applied to Port 1, a current of 4 A flows through Port 2
when it is short-circuited. When 5 V is applied to Port 1, a current of 1.25 A flows through a 1 ?
resistance connected across Port 2. When 3 V is applied to Port 1, the current (in Ampere) through a
2 ? resistance connected across Port 2 is _______.


EE 11/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.47 In the given circuit, the parameter k is positive, and the power dissipated in the 2 ? resistor is
12.5W. The value of k is _________.


Q.48 A separately excited DC motor runs at 1000 rpm on no load when its armature terminals are
connected to a 200V DC source and the rated voltage is applied to the field winding. The armature
resistance of this motor is 1 ?. The no-load armature current is negligible. With the motor
developing its full load torque, the armature voltage is set so that the rotor speed is 500 rpm. When
the load torque is reduced to 50% of the full load value under the same armature voltage conditions,
the speed rises to 520 rpm. Neglecting the rotational losses, the full load armature current (in
Ampere) is _______.

Q.49 A DC motor has the following specifications: 10 hp, 37.5 A, 230 V; flux/pole = 0.01 Wb, number
of poles = 4, number of conductors = 666, number of parallel paths = 2. Armature resistance =
0.267 ?. The armature reaction is negligible and rotational losses are 600 W. The motor operates
from a 230 V DC supply. If the motor runs at 1000 rpm, the output torque produced (in Nm) is ___-
________.

Q.50 A 200/400 V, 50 Hz, two-winding transformer is rated at 20 kVA. Its windings are connected as an
auto-transformer of rating 200/600 V. A resistive load of 12 ? is connected to the high voltage
(600 V) side of the auto-transformer. The value of equivalent load resistance (in Ohm) as seen from
low voltage side is _____.

Q.51 Two single-phase transformers T
1
and T
2
each rated at 500 kVA are operated in parallel. Percentage
impedances of T
1
and T
2
are (1 + j6) and (0.8 + j4.8), respectively. To share a load of 1000 kVA at
0.8 lagging power factor, the contribution of T
2
(in kVA) is ________.

EE 12/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.52 In the signal flow diagram given in the figure, ???? 1
and ???? 2
are possible inputs whereas ???? 1
and ???? 2
are
possible outputs. When would the SISO system derived from this diagram be controllable and
observable?
u1
u2
5
-1
1
-2
2
x1
x2
y1
y2
1/s
1
1
1
1
1
1/s
1/s

(A) When ???? 1
is the only input and ???? 1
is the only output.
(B) When ???? 2
is the only input and ???? 1
is the only output.
(C) When ???? 1
is the only input and ???? 2
is the only output.
(D) When ???? 2
is the only input and ???? 2
is the only output.

Q.53 The transfer function of a second order real system with a perfectly flat magnitude response of
unity has a pole at (2 ? ???? 3). List all the poles and zeroes.
(A) Poles at (2 ? ???? 3), no zeroes.
(B) Poles at (?2 ? ???? 3), one zero at origin.
(C) Poles at (2 ? ???? 3), ( ?2 + ???? 3), zeroes at ( ?2 ? ???? 3), (2 + ???? 3).
(D) Poles at (2 ? ???? 3), zeroes at ( ?2 ? ???? 3).

Q.54
Find the transfer function
???? ( ???? )
???? ( ???? )
of the system given below.
G
1
H Y(s) X(s)
+
_
G
2
+
_
+
+
Y(s)


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

(C)
???? 1
+ ???? 2
1+ ???? ( ???? 1
+ ???? 2
)
(D)
???? 1
+ ???? 2
1 ? ???? ( ???? 1
+ ???? 2
)



EE 13/14
GATE 2015 SET1 ELECTRICAL ? EE
Q.55 The open loop poles of a third order unity feedback system are at 0, ?1, ?2. Let the frequency
corresponding to the point where the root locus of the system transits to unstable region be K. Now
suppose we introduce a zero in the open loop transfer function at ?3, while keeping all the earlier
open loop poles intact. Which one of the following is TRUE about the point where the root locus of
the modified system transits to unstable region?
(A) It corresponds to a frequency greater than K
(B) It corresponds to a frequency less than K
(C) It corresponds to a frequency K
(D) Root locus of modified system never transits to unstable region





END OF THE QUESTION PAPER

EE 14/14
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This post was last modified on 19 December 2019