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EE : ELECTRICAL ENGINEERING
Duration: Three Hours
Test Booklet Series: B
Maximum Marks: 100
Test Type: 5
Paper Code: EE101
Read the following instructions carefully.
1. Do not open the seal of the Question Booklet until you are asked to do so by the invigilator.
2. Take out the Optical Response Sheet (ORS) from this Question Booklet without breaking the seal and read the
instructions printed on the ORS carefully. If you find that the Question Booklet Code printed at the right hand
top corner of this page does not match with the Booklet Code on the ORS, exchange the booklet immediately
with a new sealed Question Booklet.
3. On the right half of the ORS, using ONLY a black ink ball point pen, (i) darken the bubble corresponding to
your test paper code and the appropriate bubble under each digit of your registration number and (ii) write your
registration number, your name and name of the examination centre and put your signature at the specified location.
4. This Question Booklet contains 65 questions including blank pages for rough work. After you are permitted to
open the seal, please check all pages and report discrepancies, if any, to the invigilator.
5. There are a total of 65 questions carrying 100 marks. All these questions are of objective type. Each question has
only one correct answer. Questions must be answered on the left hand side of the ORS by darkening the appropriate
bubble (marked A, B, C, D) using ONLY a black ink ball point pen against the question number. For each
question darken the bubble of the correct answer. More than one answer bubbled against a question will be
treated as an incorrect response.
6. Since bubbles darkened by the black ink ball point pen cannot be erased, candidates should darken the bubbles in
the ORS very carefully.
7. Questions Q.1 – Q.25 carry 1 mark each. Questions Q.26 – Q.55 carry 2 marks each. The 2 marks questions
include two pairs of common data questions and two pairs of linked answer questions. The answer to the second
question of the linked answer questions depends on the answer to the first question of the pair. If the first question in
the linked pair is wrongly answered or is unattempted, then the answer to the second question in the pair will not be
evaluated.
8. Questions Q.56 – Q.65 belong to General Aptitude (GA) section and carry a total of 15 marks.
Questions Q.56 – Q.60 carry 1 mark each, and questions Q.61 – Q.65 carry 2 marks each.
9. Unattempted questions will result in zero mark and wrong answers will result in NEGATIVE marks. For all 1
mark questions, 1/3 mark will be deducted for each wrong answer. For all 2 marks questions, 2/3 mark will be
deducted for each wrong answer. However, in the case of the linked answer question pair, there will be negative
marks only for wrong answer to the first question and no negative marks for wrong answer to the second question.
10. Calculator is allowed whereas charts, graph sheets or tables are NOT allowed in the examination hall.
11. Rough work can be done on the question paper itself. Blank pages are provided at the end of the question paper
for rough work.
12. Before the start of the examination, write your name and registration number in the space provided
below using a black ink ball point pen.
Name
Registration No.
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Q. 1 – Q. 25 carry one mark each.
Q. 1
Integrated output waveform for the dual slope ADC is shown in figure. The time T for an 8
bit counter with 4MHz clock will be
(a.) 0.032m sec.
(b.) 0.064m sec.
(c.) 0.64m sec.
(d.) 0.024m sec.
Q. 2
In the given figure below the switches are in position ‘a’ or ‘b’ depending on the switch input
being 0 or 1. B3 is the MSB and B0 is the LSB. Find the output voltage V0 if the input digital
code is (1111)
(a.) –10 volt
(b.) –8 volt
(c.) –9.31 volt
(d.) –4.53 volt
Q. 3
For the synchronous generator shown below find the direction of current in the stator coil aa
aa
(with direction of rotation shown anticlock wise)
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(a.) in a &  in a '
(b.)  in a & in a '
(c.) in a & in a '
(d.) In cannot be determined
Q. 4
If a series combination of a D.C source of 8V and a.c. source of 5sin3t + 4 sin5t is measured
by PMMC and electrodynamometer separately. Then what will be the reading
(a.) 8V and 9.192V
(b.) 17V and 17V
(c.) 9.192V and 9.192V
(d.) 17V and 9.192V

Q. 5
It x(t )   sin c t dt then x(t) is
0
(a.) 0
(b.) ½
(c.) 1
(d.) 
Q. 6
Determine the time signal corresponding transfer function H ( z ) 
4 z 2  36 z
2 z 2  9 z 1  4
when
system is stable
 1
(a.)  
 8
n
n
 1
u   n  1    u  n 
 4
n
(b.)
35  1 
n
  .u  n   16(2) u[ n  1]
112  4 
n
n
 1
 1
(c.)   u   n  1    u  n 
 4
 8
 1
(d.)  
 4
n
u   n  1  (2) n u   n  1
Q. 7
For a turbo alternator of 100MVA, the inertia constant 5. The value of “H” for an alternator
of 50MVA is
(a.) 15
(b.) 12
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(c.) 10
(d.) 8
Q. 8
The non-uniformity of the current-distribution is due to
(a.) Faraday’s effect and skin affect
(b.) Bundled conductor and skin effect
(c.) Proximity effect and skin effect
(d.) Ferranti effect and Faraday’s effect:
Q. 9
Which bridge is used as a harmonic analyzer & also used as a Notched filter
(a.)
(b.)
(c.)
(d.)
Q. 10
Maxwell bridge
Schering bridge
Heaviside campbell bridge
Wein’s Bridge
In the system shown in the figure below, r(t) = sin t. The steady state response C(t) will
exhibit a resonance peak at a frequency of
r( t )
+
–
64
s(s + 8)
(t)
(a.) 8 rad/sec
(b.) 4 2 rad/sec.
(c.) 4 rad/sec
(d.) 2 2 rad/ sec.
Q. 11 What is the Fourier Transform of given figure
A
–T
T
 T
(a.) AT S a 2   
 2
 T
(b.) AT S a   
 2
T
(c.) 2 AT S a 2   
 2
T
(d.) 2 AT S a   
 2
Q. 12 Find the value of current "I1" in the circuit shown below
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(a.) 3.5 A
(c.) 4 A
ELECTRICAL ENGG. - EE
(b.) – 3.5 A
(d.) None of above
Q. 13 In figure, the switch was closed for a long time before opening at t = 0. The voltage ‘ vR ’ at
t  0 is:
R1
t=0
R9
R11
R2
R5
R3
R4
R 10
10H
R6
R7
R8
5A
20
R 12
+ v –
R
(a.) It cannot be determined as the value of resistance are not given
(b.) 100 volts
(c.) –100 volts
(d.) 0 volts
Q. 14 For the root loci of unity feedback shown in the figure below
If the gain “K” is increased by 4-times then  is
(a.) reduced by 0.5 times
(b.) increased by 2 times
(c.) reduced by 2 times
(d.) none of above
Q. 15 Power consumed per phase is 3840 watts for the circuit shown below
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IR
3–
Balanced
Source
400v
RP
20
+j Z
IB
Z
RP + j20
Z
RP + j20
IY
Then the one possible value of R P is
(a.) 29 
(b.) 20 
(c.) 15 
(d.) 19.67 
Q. 16 What will be the contents of register AL after the following has been executed
MOV BL, 8C
MOV AL, 7E
ADD AL, BL
(a.) 0A and carry flag is set
(b.) 0A and carry flag is reset
(c.) 6A and carry flag is set
(d.) 6A and carry flag is reset
Q. 17 If the inductance of moving iron instrument is L  (30  5  2 2 )  H and spring constant
K  2.4  106 So what will be deflection when measuring current I = 4A
(a.) 1.162 rad
(b.) 0.162 rad
(c.) 2.212 rad
(d.) 0.524 rad
(1  x)1/ x  e
x 0
x
is
lim
Q. 18 The value of
e
(a.) 
2
(b.) e
(c.) 0
(d.) 1
Q. 19 The particular integral of the differential equation (D2 –3D + 2) y = sin (e–x) is
(a.) Ce x  C2e 2 x  e2 x sin(e x )
(b.) Ce x  C2e2 x  e2 x sin(e x )
(c.) Ce x  C2e2 x  e2 x sin(e x )
(d.) C1e x  C2e 2 x  e2 x sin(e x )
Q. 20
The harmonic conjugate of the functions u 
(a.) Does not exist
1
ln( x 2  y 2 ) is
2
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(b.) Since not harmonic, hence no harmonic conjugate
y
(c.) tan 1
x
y
(d.) sin 1
x
Q. 21
Find the transfer function for the control system shown below
Box shown above performs the operation same as 1  2 “De-multiplexer”” But not in digital
form it transfer the data in analog form


1
(a.)  

 s ( s  1)  1 
1
(b.)
s( s  1)  1
(c.)
1
s( s  1)  1


1
(d.)  

 s ( s  1)  1 
Q. 22
For the root locus plot of some open loop transfer function is shown below.
Find the value of K marked in the graph
(a.)
Transfer function required
(b.)
8
(c.)
48
(d.)
2 2
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Q. 23 If reverse current of Ge transistor at 25ºC is 22A. If VBB = 1 volt, then how much temperature
must be increased so that given transistor must come into cut off region:
(a.)
Q. 24
37ºC
(b.)
47ºC
(c.)
56.7ºC
(d.)
67.8ºC
The states of diode D1 and D2 in figure under extremely high negative (VS >> V) is
(a.) Both D1 and D2 off
(c.) Both D1 and D2 on
(b.)D1 off & D2 on
(d.)D1 on & D2 off
Q. 25 In the circuit shown below the impedance of circuit should be independent of the frequency of
supply
The power loss will be ?
v2
(a.)
C
L
v2
(b.)
L
C
(c.)
L
v2  
C
(d.)
None
one of these
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Q. 26 to Q. 55 carry two marks each.
Q. 26 If current coil resistance is 0.5 and pressure coil resistance is 10K and series resistor of
400 , so what will be the reading of wattmeter.
If V = 220V , I = 20A
(a.)
4400W
(b.)
4396.25W
Q. 27 The Laplace transfer of x(t) is X ( s) 
(c.)
s 2  16
( s  3)(s 2  s  2)
4404.65W
(d.)
0W
Then evaluate the value of x(t) for
which Fourier transform is define
15 t 7 3t 12 2t
e  e  e
6
10
15
7
2
(b.) e t  e 3t  e2t
10
5
15 t 7 3t 12 2t
(c.)  e  e  e
6
10
15
1
4
4
(d.) e t  e3t  e 2t
2
10
3
(a.) 
Q. 28 A 2-pole d.c. shunt generator charges a 100 volts battery, the armature circuit resistance is
0.5. The charging currents are found to be 10A and 20A for generator speed of 1055 and
1100 rpm respectively.
(neglect armature reaction effect and internal resistance of
battery)
The field current of the generator is
(a.) If = 20A
(b.) If = 20.44A
(c.) If = 24.44A
(d.) If = 44.44A
Q. 29 The gates G1, G2 , G3 , G4 & G5 has propagation delay of 10 nSec, 20 nSec, 30 nSec, 40 nSec &
50 nSec respectively if the input ‘V1’ makes an abrupt change from 0 to 1 at t = to and V2
changes from 1 to 0 at t = to , then output waveform V0 is
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(a.)
(b.)
(c.)
(d.)
None of above
Q. 30 In the figure shown below all the FF’s are initially cleared
What is the value of Y0 after 3 clock pulse.
(a.) A  B
(b.) A  B
(c.)
Q. 31 The impulse response of the system shown below
AB
(d.)
A B
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(a.) h(n)   [n  1]  2 [n  2]   [n  4]
(b.) h[n]  [n]   [n  2]
(c.) h[n]  [n  3]  [n  1]  2[n  2]
(d.) h[n]  [n  2]  [n  5]
Q. 32 What is the inverse Fourier transform of X()
(a.)
cos t sin 2t
.
2
2

(b.)
cos 2t sin 2(t   )
.
.d 
2
2

(c.)
sin t sin 3t
.
t
3t


(d.)
sin 2 sin 2(t   )
.
d

 (t   )


Q. 33 The steady state error for the system shown below is
Where , D ( s )  Disturbance (Noise)
,
(a.) ess = 0
ess = –1
(b.)
ess = 1 (c.)
R( s)  unit step.
(d.)
ess = 
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Q. 34
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A 400MVA, 22KV, 3- salient-pole generator is operating at 300MW power output at a
lagging power factor of 0.866 synchronized to 22KV bus. The generator reactance’s are
X d  1 p.u.
&
X q  0.8 p.u. The generator gives rated a open circuit voltage at a field
current of 300A. The excitation e.m.f is
(a.) 1.7223.99 p.u.
(b.) 1.72 43 p.u.
(c.) 123.99 p.u.
(d.) 1 43 p.u.
Q. 35 For y(t) shown below, at what minimum frequency signal y(t) will be sampled so that y(t) can
be reconstructed from its sampled value .

y (t ) 
 sinc . sinc 2(t   ).d

(a.)
1 Hz
(b.)
2 Hz
(c.)
4 Hz
(d.)
3Hz
Q. 36 Which one of the following will represent the impulse response of static system
(a.) e2t .u (t )
(b.) e2t u (t  2)
(c.) e2t u (t  2)
(d.) e2t  (t )
1 2 3
Q. 37 The matrix A is defined as A  0 3 2 
0 0 2 
The eigen value of 3 A3  5 A2  6 A  2 I are
(a.) 4, 110, 105
(b.) 2, 15, 18
(c.) 15, 18, 21
(d.) 110, 10, 105
Q. 38 3 boxes A, B, C in which A contains 2 White, 3 Red and 1 Green ball. B contains 1 White, 2
Red and 3 Green ball and C contains 3 White , 1 Red and 2 Green ball. Two balls are drawn at
random and found to be 1 white and 1 Red. What is probability that they were drawn from B
box.
(a.) 5/11
(b.) 1/11
(c.) 2/11
(d.) 6/11
Q. 39 In which of the following case, the order of convergence is quadratic?
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(a.) Method of false position
(b.) Newton-Raphson
Raphson method
(c.) Bisection method
(d.) Iterative method
Q. 40 In how many ways 30 marks can be allotted to 8 questions if each question carries at least 2
marks:
(a.)
Q. 41
116280
(b.)
112801
(c.)
621180
(d.)
261180
A generator operating at 50Hz delivers 1p.u. power to an infinite bus through a transmission
line. A fault takes place reducing the maximum power transferable to half, whereas before
fault this power was 2.0 p.u. and after the clearance of the fault, it is 3/2 p.u. the critical angle
is approximately:
(a.)
72º
(b.)
70º
(c.)
59º
(d.)
69º
61.23K
(d.)
80K
Q. 42 If transistor is in active region calculate value of R1
(a.) 51.19K
(b.)
40K
(c.)
Q. 43 Two 22KV, 40MVA, 3,, star connected gene
generators
rators operated in parallel as shown in figure
below:
The positive, negative and zero sequence reactances of each being, respectively, j0.2, j0.18,
j0.12 p.u. The star point of G1 is earthed through a 2 resistor and that point of G2 is isolated .
The single line to ground fault at the terminals of one generator.
The approximate current in the grounding resistor and the voltage across grounding resistors
are respectively.
(a.) 5.4 KA ; 10.8 KV
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(b.) 22.KA; 44KV
(c.) 4.5 KA; 9KV
(d.) 8.10 KA; 16.2 KV
Q. 44 For control of process
rocess through PID controller
T 

Q  20 1  sTd  r  is cascaded as shown below:
s

Td  Derivative time
Tr  Rise time
When integral control action is not employed then,
then the value of ‘Td’ such that the overall
system is critically damped:
(a.) Td = 0.04 sec
(b.) Td = 0.02 sec
(c.) Td = 0.4 sec
(d.) Td = 0.2 sec
Q. 45 Two J-K flip-flops
flops are connected as synchronous counter that goes through the following QBQA
sequence 11  10  01  00  11 …………. the connection to the input J A & J B are
(a.) J A  QA ; J B  QB
(b.) J A  (QA  QB ) ; J B  QA QB
(c.) J A  QA  QB ; J B  QA  QB
(d.) J A  1 ; J B  QA  QB
Q. 46 The value of voltage " vA " shown in the figure given below is
(a.) 20 volts
(b.) 12 volts
(c.) 45 volts
(d.) none of above
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Q. 47 A 220V 60A dc series motor having combined resistance of and filed of 0.15 is controlled in
regenerative braking motor dc source voltage 220V motor constant is 0.05 V-S/A-rad. The avg. motor
armature current is rated and ripple free for a duty cycle of 50% determine speed during braking and
power returned to supply.
(a.)
39.66 rad/sec, 6.6 kw
(b.)
32.2 rad/sec, 4.5 kw
(c.)
42.2 rad/sec, 5.4 kw
(d.)
50 rad/sec, 7.5 kw
Common Data Questions
Common Data for Questions 48 and 49:
Consider the open loop transfer function of a unity feedback system is G( s ) 
3( s  3)
s( s  1)
Q. 48 The phase crossover frequency of the system is
(a.) 3 r/s
(b.) 2 r/s
(c.) 3 r/s
(d.) 1 r/s
Q. 49 Which of the following for the above closed system is correct?
(a.) stable system
(b.) unstable system
(c.) marginal stable system
(d.) none of above
Common Data for Questions 50 and 51:
50Hz, 3- induction motor has a rated voltage ‘V1’. The slip at rated voltage and rated frequency at
which the torque is maximum is 0.3. Now the motor runs at 80Hz supply at V2 voltage
Neglect stator impedance
Q. 50 The ratio of current and torque at starting if v1  v2 is
(a.) 1.64, 0.411
(b.) 0.64, 0.411
(c.) 1.84, 2.34
(d.) 0.84, 2.34
Q. 51 For motor has the same value of starting current and torque at 50 & 80 Hz frequency then the
ratio of v2/v1 is
(a.) 0.46
(b.) 0.84
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(c.) 1.55
(d.) 2.55
Linked Answer Questions
Statement for Linked Answer Questions 52 and 53:
A separately exited dc motor fed from 3-
3 (phase) semi convertor develop a full load torque at 1500
rpm when firing angle is zero (0º). The armature is taking 50A at 400 Vdc having Ra = 0.5
0.5
Q. 52 Calculate supply voltage per phase
(a.)
170V
(b.)
290V
(c.)
250V
(d.)
None
Q. 53
Also range of  required to given speed b/w 1500 rpm to 750 rpm at full load
(a.)
86.4º
(b.)
90º
(c.)
75.4º
(d.)
0º
Statement for Linked Answer Questions 54 and 55:
For the circuit shown below
Q. 54 The value of V2 is
(a.) 100 volts
(b.) 1.81 volts
(c.) 1 volts
(d.) 12 volts
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Q. 55 The average power delivered to the equivalent resistance of secondary across V2 is
(a.)
1250 watts
(b.)
0.125 watts
(c.)
0.4095 watts
(d.)
0.2047 watts
General Aptitude (GA) Questions (Compulsory)
Q. 56 – Q. 60 carry one mark each.
Q. 56 Find the missing number in given number series
1, 8, 3, 16, 5, 32, 7, ……., 9
(a)
64
(b.) 55
(c.) 77
(d.)
40
Q. 57 Choose the most appropriate word from the options given below to complete the following
sentence:
There are no permanent ___________in politics
(a) associates
(b.) allies
(c.) collaborators
(d.) partners
Q. 58 Choose the most appropriate alternative from the options given below to complete the
following sentence:
In final conclusion, the use of final is superfluous because conclusion _____ always final.
(a) was
(b.) is
(c.) are
(d.) has been
Q.59 Which one of the following options is the closest in meaning to the word given below?
Plethora
(a.) excess
(b.) lack
(c.) rarity
(d.) scarcity
Q.60 One of the parts (A, B, C, D) in the sentence given below contains an ERROR. Which one of
the following is INCORRECT?
I don't think / that your friend has any illusions / about his scholarship. / No error
(a)
(b)
(c)
(d)
Q. 61 - Q. 65 carry two marks each.
Q. 61 Shreya starts walking towards the east and, after covering a distance of 20 m, she turns left and
runs for 15 m. She then turns to her right and moves 25 m. From here, she again turns right and
walks for 15 m. How far is she from the starting point?
(a.) 40 m
(b.) 45 m
(c.) 50 m
(d.) 60 m
Q. 62 Ten judges were asked to judge the relative sweetness of five compounds(A, B, C, D and E) by
the method of paired comparisons. In judging each of the possible pairs they were required to
state unequivocally which of the two compound was sweeter – a judgement of equality or of
no difference was not permitted.
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The results of their judgements are summarized in the given table. In studying the table, note
that each cell entry shows the number of comparisons in which the ‘row’ compound was judged
to be sweeter than the ‘column’ compound.
A B C D E
A
5 8 10 2
B 5
3 9 6
C
D
E
2
0
8
7
1
4
7
3
2
8
4
6
How many comparisons did each judge make?
(a.) 5
(b.) 10
(c.) 15
(d.) 20
Q. 63 I tried a smile-there was no response. I offered the customary gifts-he waved them aside. I tried
the few words I knew-and with a gesture of dignity and scorn he handed me a present, a solitary
egg; white and chilled it nestled in my palm. I smiled again but even I felt that my smiles had
become mechanical. There was obviously nothing for it: I would have to put on my little act,
which in my opinion is worth a whole Platoon of Assam riffles as a safety measure. I removed
my dentures. There was a roar of interest and excitement from the crowd. I put them back
another roar after I had conducted this humiliating performance several times, there was at least
a reaction. The chief’s lips began to twitch, and finally he broke into a hearty laugh. Pointing to
his grey hair, he declared, ‘I am an old man too’ and soon he was sitting beside me very
affably.
The removing of dentures by the author was intended to show that:
(a.) he was not frightened.
(b.) he was old and weak in some ways.
(c.) he knew a lot of tricks to amuse people.
(d.) he did not wish to be treated as a friend.
Q.64 300 gram of sugar solution has 40% sugar in it. How much sugar (in gram) should be added to
make it 60% in the solution?
(a.) 10
(b.) 40
(c.) 90
(d.) 60
Q. 65 Indian army can fire four shots at a time with an anti aircraft gun, If the probabilities of the 1st ,
2nd , 3rd and 4th shot hitting the enemy aircraft are 0.7, 0.6, 0.5 and 0.4.
What is the probability that four shots aimed at an enemy aircraft will bring the aircraft down?
(a.)
0.964
(b.)
0.123
(c.)
0.166
(d.)
0.888
END OF THE QUESTION PAPER
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Space for Rough Work
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Space for Rough Work
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Space for Rough Work
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