Q.1 to Q.30 carry one mark each
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1 Q. to Q.3 carry one mark each Q. The given Figure shows the waveform of the current passing through an inductor of resistance and inductance H. The energy absorbed by the inductor in the first four seconds is 44 J (B) 98 J (C) 3 J (D) 68 J Q. A segment of a circuit is shown in fig. VR 5V, VC 4sint. The voltage V L is given by 3 8 cos t (B) 3 sin t (C) 6 sin t (D) 6 cos t Q.3 In the fig. Z 6, A 6, Z The even impedance seen from X Y is (B) 6 3 (C) 7 3 (D) Q.4 Two conductors are carrying forward and return current of + I and I as shown in fig. The magnetic field intensity H at point P is
2 I d y (B) I d x (C) I d y (D) I d x Q.5 Two infinite strips of width w m in x direction as shown in fig, are carrying forward and return currents of +I and I in the z direction. The strips are separated by a distance of x m. The inductance per unit length of the configuration is measured to be L H/m. If the distance of separation between the strips is now reduced to x/m, the inductance per unit length of the configuration is L H/m (B) L/4 H/m (C) L/ H/m (D) 4L H/m Q.6 A single phase transformer has a maximum efficience of 9% at full load and unity power factor. Efficiency at half load at the same power factor is 86.7% (B) 88.6% (C) 88.9% (D) 87.8% Q.7 Group I lists different applications and Group II lists the motors for these applications. Match the application with the most suitable motor and choose the right comgination among the choices given thereafter Group I Group II A. Food mixer. Permanent magnet dc motor B. Cassette tape recorder. Single phase induction motor C. Domestic water pump 3. Universal motor
3 3 D. Escalator 4. Three phase induction motor 5. DC series motor 6. Stepper motor P 3, Q 6, R 4, S 5 (B) P, Q 3, R, S 4 (C) P 3, Q, R, S 4 (D) P 3, Q, R, S 4 Q.8 A stand alone engine driven synchronous generator is feeding a partly inductive load. A capacitor is now connected across the load to completely nullify the inductive current. For this operating condition the field current and fuel input have to be reduced (B) the field current and fuel input have to be increased (C) the field current has to be increased and fuel input left unaltered (D) the field current has to be reduced and fuel input left unaltered Q.9 Curves X and Y in fig. denote open circuit and full load zero power factor (zpf) characteristics of a synchronous generator. Q is a point on the zpf characteristics at. p.u. voltage. The vertical distance PQ in fig. gives the voltage drop across Synchronous reactance (C) Potier reactance (B) Magnetizing reactance (D) Leakage reactance Q. No load test on 3 phase induction motor was conducted at different supply voltages and a plot of input power versus voltage was drawn. This curve was extrapolated to intersect the y axis. This intersection point yields Core loss (C) Stray load loss (B) Stator copper loss (D) Friction and wind age loss Q. Bundled conductors are mainly used in high voltage overhead transmission lines to reduce transmission line losses (C) reduce corona (B) increase mechanical strength of the line (D) reduce sag Q. A power system consists of 3 buses out of which buses are generator buses, 5 buses are the ones with reactive power support and 5 buses are the ones with fixed shunt capacitors. All the other buses are load buses. It is proposed to perform a loadflow analysis for the system using newtorn Raphson method. The size of the Newton Raphson jacobian matrix is 553 x 553 (B) 54 x 54 (C) 555 x 555 (D) 554 x 554
4 4 Q.3 Choose two appropriate auxiliary components of a HVDC transmission system from the following P. D.C. line inductor Q. A.C. line inductor R. Reactive power sources S. Distance relays on D.C. line T. Series capacitance on A.C. line P and Q (B) P and R (C) Q and S (D) S and T Q.4 A round rotor generator with internal voltage. p. u. synchronous motor with internal voltage.3 p.. E and X. p. u. is connected to a round rotor E and X =. p.u. The reactance of the line connecting the u generator to the motor is.5 p.u. When the generator supplies.5 p.u. power, the rotor angle difference between the machines will be 57.4 (B) (C) 3.58 (D) Q.5 The interrupting time of a circuit breaker is the period between the instant of initiation of short circuit and the arc extinction on an opening operation (B) energizing of the trip circuit and the arc extinction on an opening operation (C) initiation of short circuit and the parting of primary arc contacts (D) energizng of the trip circuit and the parting of primary arc contacts Q.6 The variation of drain current with gate to source voltage D Gs figure. The MOSFET is.58 (I V characteristic) of a MOSFET is shown in the an n channel depletion mode device (C) a p channel depletion mode device (B) an n channel enhancement mode device (D) a p channel enhancement mode device Q.7 In the circuit of Figure. assume that the transistor has 99 of the transistor is approximately h and V BE.7V, The value of collector current I C FE
5 5 [3.3/3.3] ma (C) [3.3/33] ma (B) [3.3/( ] ma (D) [3.3/( )] ma Q.8 For the circuit of figure with an ideal operational amplifier, the maximum phase shift of the output V out with reference to the input V in is (B) 9 (C) 9 (D) 8 Q.9 Fig. shows a 4 to MUX to be used to implement the sum S of a bit full adder with input bits P and Q and the carry input C in. Which of the following combinations of inputs to I, I, I and I 3 of the MUX will realize the sum S? I I Cin; I I3 Cin (B) I I Cin; I I3 Cin
6 6 (C) I I3 Cin; I I Cin (D) I I3 Cin; I I Cin Q. When a program is being executed in an 885 microprocessor, its program counter contains the number of instructions in the current program that have already been executed (B) the total number of instructions in the program being executed (C) the memory address of the instruction that is being currently executed (D) the memory address of the instruction that is to be executed next Q. A control system is defined by the following mathematical relationship The response of the system as d x dx t 6 5x e dt t is dt x 6 (B) x (C) x. 4 (D) x Q. A lead compensator used for a closed loop controller has the following transfer function For such a lead compensator K s a s b a < b (B) b < a (C) a > Kb (D) a < Kb Q.3 A second order system starts with an initial condition of 3 t e for the system is given by t e.7. (B) without any external input. The state transition matrix. The state of the system at the end of second is given by (C) (D).35. Q.4 A Manganin swamp resistance is connected in series with a moving coil ammeter consisting of a milli ammeter and a suitable shunt in order to Minimize the effect of temperature variation (C) reduce the size of the meter (B) obtain large deflecting torque (D) minimize the effect of stray magnetic fields Q.5 The effect of stray magnetic fields on the actuating torque of a portable instrument is maximum when the operating field of the instrument and the stray fields are Perpendicular (B) parallel (C) inclined at 6 (D) inclined at 3
7 7 Q.6 A reading of is obtained when a standard inductor was connected in the circuit of a Q meter and the variable capacitor is adjusted to a value of 3 pf. A lossless capacitor of unknown value C is then connected in parallel with the variable capacitor and the same reading was obtained when the variable capacitor is readjusted to a value of pf. The value of C in pf is x (B) (C) 3 (D) 5 Q.7 Fig. Shows a thyristor with the standard terminations of anode, cathode (K), gate (G) and the different junctions named J, J and J3. When the thyristor is turned on and conducting x J and J are forward biased and J 3 is reverse biased (B) J and J 3 are forward biased and J is reverse biased (C) J is forward biased and J and J 3 are reverse biased (D) J, J and J 3 are all forward biased Q.8 Fig. shows a MOSFET with an integral body diode. Its is employed as a power switching device in the ON and OFF states through appropriate control. The ON and OFF states of the switch are given on the V I plane by DS s Fig. A Fig. B
8 8 Fig. C Fig. D Fig. A (B) Fig. B (C) Fig. C (D) Fig. D Q.9 The speed/torque regimes in a dc motor and the control methods suitable for the same are given respectively in Group II and Group I Group I Group II P. Field control. Below base speed Q. Armature control. Above base speed 3. Above base torque 4. Below base torque The match between the control method and the speed/torque regime is as follows P ; Q 3 (B) P, Q (C) P, Q 3 (D) P ; Q 4 Q.3 A fully controlled natural commutated 3 phase bridge rectifier is operating with a firing angle 3, The peak to peak voltage ripple expressed as a ratio of the peak output dc voltage at the output of the converter bridge is.5 (B) 3 (C) 3 (D) 3 Q.3 In the circuit of given figure, the magnitudes of V L and Q.3 to Q.8 carry two mark each V C are twice that of V R. The inductance of the coil is.4 mh (B) 5.3 H (C) 3.8 mh (D).3 H Q.3 In the figure, the potential difference between points P and Q is
9 9 V (B) V (C) 6 V (D) 8 V Q.33 Two ac sources feed a common variable resistive load as shown n in fig. Under the maximum power transfer condition, the power absorbed by the load resistance R is L W (B) 5 W (C) W (D) 65 W Q.34 In the figure, the value of R is (B) 8 (C) 4 (D) Q.35 A balanced delta connected load of 8 6) ( j per phase is connected to a 4 V, 5 Hz, 3 phase supply lines. If the input power factor is to be improved to.9 by connecting a bank of star connected capacitors the required kvar of the bank is 4.7 (B). (C) 8.8 (D) 38.4 Q.36 In the circuit shown in fig. the switch S is closed at time t =. The voltage across the inductance at t, is
10 V (B) 4 V (C) 6 V (D) 8 V E h h I Q.37 The h parameters for a two port network are defined by I h h E For the two port network shown in the figure, the value of h is given by.5 (B).67 (C).65 (D).5 Q.38 A point charge of nc is placed in a space with a permittivity of potential difference charge is 8.85 F/m as shown in the figure. The V PQ between two points P and Q at distances of 4 mm and mm respectively from the point. kv (B) 5 V (C).4 kv (D) 5 V Q.39 A parallel plate capacitor has an electrode area of mm, with a spacing of. mm between the electrodes. The dielectric between the plates is air with a permittivity of The stored energy in the capacitor is 8.85 F / m. The change on the capacitor is V pj (B) 44 pj (C). nj (D) 44.3 nj
11 Q.4 A composite parallel plate capacitor is made up of two different dielectric materials with different thicknesses ( and t ) as shown in the figure. The two different dielectric materials are separated by a conducting foil F. The voltage of the conducting foil is t 5 V (B) 6 V (C) 67 V (D) 33 V Q.4 The given Figure shows an ideal single phase transformer. The primary and secondary coils are wound on the core as shown. Turns ratio ( N /N). The correct phasors of voltages E, E, currents I, I and core flux are as shown in Fig. A (B) Fig. B (C) Fig. C (D) Fig. D Q.4 To conduct load test on a dc shunt motor, it is coupled to a generator which is identical to the motor. The field of the generator is also connected to the same supply source as the motor. The armature of the generator is connected to a load resistance. The armature resistance is. p.u. Armature reaction and mechanical losses can be neglected. With rated voltage across the motor, the load resistance across the generator is adjusted to obtain rated armature current in both motor and the generator. The p.u. value of this load resistance is. (B).98 (C).96 (D).94 Q.43 Fig. shows a Y connected 3 phase distribution transformer used to step down the voltage from V to 45 V line to line. It has two switches S and S. Under normal conditions S is closed and S is open. Under certain special conditions S is open and S is closed. In such a case the magnitude of the voltage across the LV terminals a and c is
12 4 V (B) 48 V (C) 45 V (D) V Q.44 Fig. shows an ideal three winding transformer. The three windings,, 3 of the transformer are wound on the same core as shown. The turns ratio N : N : N3 is 4 : : A resistor of is connected across winding. A capacitor of reactance.5 is connected across unique 3, winding is connected across a 4 V, ac supply. If the supply voltage phasor V 4, the supply current phasor I is given by ( j ) A (B) ( j ) A (C) ( j ) A (D) ( j ) A Q.45 Following are some of the properties of ratating electrical machines P. Stator winding current is dc, rotor winding current is ac Q. Stator winding current is ac, rotor winding current is dc R. Stator winding current is ac, rotor winding current is ac S. Stator has salient poles and rotor has commutator T. Rotor has salient poles and sliprings and stator is cylindrical U. Both stator and rotor have poly phase windings
13 3 DC machines, Synchronous machines and Induction machines exhibit some of the above properties as given in the following table. Indicate the correct combination from this table DC machines Synchronous Induction Machines Machines P.S Q.T R.U (B) Q.U P.T R.S (C) P.S R.U Q.T (D) R.S Q.U P.T Q.46 When stator and Rotor windings of a pole rotating electrical machine are excited each would produce a sinusoidal mmf distribution in the airgap with peak values F and F respectively. The rotor mmf lags stator mmf by a space angle at any instant as shown in fig. Thus, half of stator and rotor surfaces will form one pole with the other half forming the second pole. Further, the direction of torque acting on the rotor can be clockwise or counter clockwise. s r The following Table gives four sets of statements as regards poles and torque. Select the correct set corresponding to the mmf axes as shown in figure. Stator surface ABC forms Stator surface CDA forms Rotor surface cda forms Rottor Surface cda forms Torque is (a) North Pole South Pole North Pole South Pole Clockwise (b) South Pole North Pole North Pole South Pole (c) North Pole South Pole South Pole North Pole Counter Clockwise Counter Clockwise
14 4 (d) South Pole North Pole South Pole North Pole Clockwise Q.47 A 4 pole, 3 phase, double layere winding is housed in a 36 slot stator for an ac machine with 6 phase spread coil span is 7 slot pitches. Number of slots in which top and bottom layers belong to different phases is 4 (B) 8 (C) (D) Q.48 A 3 phase induction Motor is driving a constant torque load at rated voltage and frequency. If both voltage and frequency are halved, following statements relate to the new condition if stator resistance, leakage reactance and core loss are ignored. P. The different between synchronous speed and actual speed remains same Q. The airgap flux remains same R. The stator current remains same S. The p.u. slip remains same Among the above, correct statements are All (B) P.Q & R (C) Q.R & S (D) P & S Q.49 A single phase induction motor with only the main winding excited would exhibit the following response at synchronous speed Rotor Current is zero (B) Rotor current is non zero and is at slip frequency (C) Forward and backward totaling fields are equal (D) Forward rotating field is more than the backward rotating field Q.5 A dc series motor driving an electric train faces a constant power load. It is running at rated speed and rated voltage. If the speed has to be brought down to.5 p.u the supply voltage has to be approximately brought down to.75 p.u. (B).5 p.u. (C).5 p.u. (D).5 p.u. Q.5 The ABCD parameters of a 3 phase overhead transmission line are A D.9. B 9 and 3 C.95 9 S. At no load condition a shunt inductive, reactor is connected at the receiving end of the line to limit the receiving end voltage to be equal to the sending end voltage. The ohmic value of the reactor is (B) (C) 5.6 (D) 5.6
15 5 Q.5 A surge of kv magnitude travels along a lossless cable towards its junction with two identical lossless overhead transmission lines. The inductance and the capacitance of the cable are.4 mh and.5 F per km. The inductance and capacitance of the overhead transmission lines are.5 mh and.5 F per km. The magnitude of the voltage at the junction due to surge is 36.7 kv (B) 8.36 kv (C) 6.7 kv (D) kv Q.53 A dc distribution system is shown in the figure. with load currents as marked. The two ends of the feeder are fed by voltage sources such that V V Q 3V. The value of the voltage V p for a minimum voltage of V at any point along the feeder is 5.89 V (B).89 V (C). V (D) 8.58 V Q.54 A 3 phase, kv generator feeds power to a constant power unity power factor load of MW through a 3 phase transmission line. The line to line voltage at the terminals of the machine is maintained constant at kv. The per unit positive sequence impedance of the line based on MVA and kv is j.. The line to line voltage at the load terminals is measured to be less than kv. The total reactive power to be injected at the terminals of the load to increase the line to line voltage at the load terminals to kv is MVAR (B). MVAR (C) MVAR (D). MVAR Q.55 The bus impedance matrix of a 4 bus power system is given by Z bus j.3435 j.86 j.73 j.77 j.86 j.348 j.586 j.44 j.73 j.586 j.79 j.9 j.77 j.44 j.9 j.79 A branch having an impedance of and j. is connected between bus and the reference. Then the value of Z, new Z 3, new of the bus impedance matrix of the modified network are respectively (C) j.548 and j (B) j.6 and j. 956 j.548 and j. 956 (D) j.6 and j. 63 Q.56 A MVA, 6.6 kv, 3 phase alternator is connected to a 3 phase transmission line. The per unit positive sequence, negative sequence and zero sequence impedances of the alternator are j., j. and j.4 respectively. The neutral of the alternator is connected to ground through an inductive reactor of j.5 p.u. The per unit positive, negative and zero sequence impedances of the transmission line are j., j. and j.3, respectively. All per unit values are based on the machine ratings. A solid ground fault occurs at one phase of the far end of the transmission line. The voltage of the alternator neutral with respect to ground during the fault is
16 V (B) V (C). V (D) 64. V Q.57 Incremental fuel costs (in some appropriate unit) for a power plant consisting of three generating units are IC.3P, IC 3.4 P, IC3 3 Where P is the power in MW generated by unit i, for i =, and 3. Assume that all the three units are operating all the time. Minimum and maximum loads on each unit are 5 MW and 3 MW respectively. If the plant is operating on economic load dispatch to supply the total power demand of 7 MW, the power generated by each unit is (B) (C) (D) P 4.86MW; P 57.4MW; and P3 3MW P 57.4MW; P 4.86MW; and P3 3MW P 3.MW; P 3.MW; and P3 MW P 33.3 MW; P 33.3 MW; and P MW Q.58 A list of relays and the power system components protected by the relays are given in Group I and Group II respectively. Choose the correct match from the four choices given below Group I Group II P Distance relay. Transformers Q Under frequency relay. Turbines R Differential relay 3. Busbars S Buchholz relay 4. Shunt capacitors 5. Alternators 6. Transmission lines P 6, Q 5, R 3, S (B) P 4, Q 3, R, S (C) P 5, Q, R, S 6 (D) P 6, Q 4, R 5, S 3 Q.59 A generator delivers power of. p.u. to an infinite bus through a purely reactive network. The maximum power that could be delivered by the generator is. p.u. A three phase fault occurs at the terminals of the generator which reduces the generator output to zero. The fault is cleared after t c second. The original network is then restored. The maximum swing of the rotor angle is found to be electrical degree. Then the rotor angle in electrical degrees at t tc is max
17 7 55 (B) 7 (C) 69.4 (D) 7.4 Q.6 A three phase alternator generating unbalanced voltages is connected to an unbalanced load through a 3 phase transmission line as shown in fig. The neutral of the alternator and the star point of the load are solidly grounded. The phase voltages of the alternator are E V, E 9 V, E V. The positive sequence component of the load current is n b c (C).3 7 A (B).33 A.996 A (D) A Q.6 For the n channel enhancement MOSFET shown in fig, the threshold voltage V in V. The drain current I D of the MOSFET is 4 ma when the drain resistance k. If the value of RD is increased to 4 k, drain current I D will become R D is.8 ma (B). ma (C).4 ma (D). ma Q.6 Assuming the operation amplifier to be ideal, the gain out in V / V for the circuit shown in the given figure is
18 8 (B) (C) (D) Q.63 A voltage signal sint values of the output waveform is applied to the circuit with ideal diodes, as shown in fig. The maximum, and minimum V of the circuit are respectively kw.. out + v and V (C) +7 V and 4 V (B) + 4 V and 4 V (D) +4 V and 7 V Q.64 The circuit of fig. shows a 555 Timer IC connected as an astable multivibrator. The value of the capacitor C is nf. The values of the resistors R and R for a frequency of khz and a duty cycle of.75 for the output voltage waveform are A B
19 9 (C) RA 3.6k, RB 3. 6k (B) RA 3.6k, RB 7. 5k RA 7.5k, RB 3. 6k (D) RA 7.5k, RB 7. 5k Q.65 The simplified block diagram of a bit A/D converter of dual slope integrator type is shown in fig. The bit counter at the output is clocked by a MHz clock. Assuming negligible timing overhead for the control logic, the maximum frequency of the analog signal that can be converted using this A/D converter is approximately khz (B) khz (C) 5 Hz (D) 5 Hz Q.66 The Boolean expression X Y Z X Y Z X Y Z X Y Z X Y Z can be simplified to (C) X Z X Z Y Z (B) X Z Y Z Y Z X Y Y Z X Z (D) X Y Y Z X Z Q.67 The shift register shown in fig. is initially loaded with the bit pattern. subsequently the shift register is clocked, and with each clock pulse the pattern gets shifted by one bit position to the right. With each shift, the bit at the serial input is pushed to the left most position (msb). After how many clock pulses will the content of the shift register become again?
20 3 (B) 7 (C) (D) 5 Q.68 An X Y flip flop, whose characteristic Table is given below is to be implemented using a J K flip flop This can be done by making J X, K Y (B) J X, K Y (C) J Y, K X (D) J Y, K X Q.69 A memory system has a total of 8 memory chips, each with address lines and 4 data lines. The total size of the memory system is 6 kbytes (B) 3 kbytes (C) 48 kbytes (D) 64 kbytes Q.7 the following program is written for an 885 microprocessor to add two bytes located at memory addresses FFE and FFF LXI H, FFE MOV INR MOV ADD INR MOV XOR B, M L A, M B L M, A A On completion of the execution of the program, the result of addition is found in the register A (B) at the memory address (C) at the memory address F (D) at the memory address Q.7 A control system with certain excitation is governed by the following mathematical equation d x dx 4t 5t x 5e e dt dt The natural time constants of the response of the system are 8 s and 5s (B) 3s and 6s (C) 4s and 5s (D) /3s and /6s Q.7 The block diagram shown in fig Q.7 & 73. gives a unity feedback closed loop control system. The steady state error in the response of the above system to unit step input is
21 5% (B).75% (C) 6 % (D) 33 % Q.73 The roots of the closed loop characteristic equation of the system shown in fig 7 are and 5 (B) 6 and (C) 4 and 5 (D) 6 and Q.74 The following equation defines a separately excited dc motor in the form of a differential equation d dt B J d K dt LJ K LJ V a The above equation may be organized in the state space form as follows Where the P matrix is given by d d dt P dt QV d a dt B J K LJ (B) K L J B J (C) K B L J J (D) B J K L J Q.75 The loop gain GH of a closed loop system is given by the following expression which the system just becomes unstable is K. The value of K for s( s )( s 4) K = 6 (B) K = 8 (C) K = 48 (D) K = 96 Q.76 The asymptotic Bode plot of the transfer function frequency of. 5 a are respectively s K / is given in fig. The error in phase angle and db gain at a a 4.9,.97dB (B) 5.7, 3dBs (C) 4.9, 3dB (D) 5.7,.97dB
22 Q.77 The block diagram of a control system is shown in fig. The transfer function ( s) Y ( s) / U ( s) G of the system is s s 8 3 (B) s s (C) s s 7 9 (D) s s Q.78 The items in Group I represent the various types of measurements to be made with a reasonable accuracy using the suitable bridge. The items in Group II represent the various bridges available for this purpose. Select the correct choice of the item in Group II for the corresponding item in Group I from the following Group I Group II P. Resistnce in the milli Ohm range. Wheatstone Bridge Q. Low values of Capacitance. Kelvin Double Bridge R. Comparison of resistances which 3. Schering Bridge are nearly equal 4. Wien s Bridge S. Inductance of a coil with 5. Hay s Bridge A large time constant 6. Carey Foster Bridge P =, Q = 3, R = 6, S = 5 (B) P =, Q = 6, R = 4, S = 5 (C) P =, Q = 3, R = 5, S = 4 (D) P =, Q = 3, R =, S = 6 Q.79 A rectifier type ac voltmeter consists of a series resistance R s, an ideal full wave rectifier bridge and a PMMC instrument as shown in the figure. The internal resistance of the instrument is and a full scale deflection is produced by a dc current of ma. The value of Rs. Required to obtain full scale deflection with an ac voltage of V (rms) applied to the input terminals is
23 (B) (C) 89.93k (D) 4.3k Q.8 A wattmeter reads 4 W when its current coil is connected in the R phase and its pressure coil is connected between this phase and the neutral of a symmetrical 3 phase system supplying a balanced star connected.8 p.f. inductive load. The phase sequence is RYB. What will be the reading of this wattmeter if its pressure coil alone is reconnected between the B and Y phases, all other connections remaining as before? 4. (B) 59.6 (C) 3. (D) 69.8 Q.8 The inductance of a certain moving iron ammeter is expressed as L 3 H, in radians from the zero position. The control spring torque in in radian when the meter carriers a current of 5A, is.4 (B). (C). (D). 5 where is he deflection 4 6 Nm/radian. The deflection of the pointer Q.8 A 5 A/5 A, 5 Hz current transformer has a bar primary. The secondary burden is a pure resistance of and it draws a current of 5 A. If the magnetic core requires 5 AT for magnetization, the percentage ratio error is.56 (B).56 (C).8 (D).8 Q.83 The voltage flux adjustment of a certain phase V induction watt hour meter is altered so that the phase angle between the applied voltage and the flux due to it is 85 (instead of 9 ). The errors introduced in the reading of this meter when the current is 5 A at power factors of unity and.5 lagging are respectively 3.8 mw, 77.4 mw (B) 3.8 mw, 77.4 mw (C) 4. W, 85. W (D) 4. W, 85. W Q.84 Group II represents the figures obtained on a CRO screen when the voltage signals V Vxm sint and Vy Vym sin( t ) are given to its X and Y plates respectively and is changed. Choose the correct value of from Group I to match with the corresponding fig of Group II Group I
24 4 P Q / R 3 / S 3 / Group II P =, Q = 3, R = 6, S = 5 (B) P =, Q = 6, R = 4, S = 5 (C) P =, Q = 3, R = 5, S = 4 (D) P =, Q = 5, R = 6, S = 6 Q.85 In the circuit shown in fig, the current gain ( ) of the ideal transistor is. The operating point of the transistor V, I ) is ( CC C (4 V, 4 A) (B) (4 V, 5 A) (C) ( V, 4 A) (D) (5 V, 4 A) Q.86 A phase controlled half controlled single phase converter is shown in fig. The control angle 3
25 5 The output dc voltage waveshape will be as shown in Fig. A (B) Fig. B (C) Fig. C (D) Fig. D Q.87 A chopper is employed to charge a battery as shown in the figure. The charging current is 5 A. The duty ratio is.. The chopper output voltage is also shown in figure. The peak to peak ripple current in the charging current is.48 A (B). A (C).4 A (D) A Q.88 An inverter has a periodic output voltage with the output waveform as shown in figure Q When the conduction angle, the rms fundamental component of the output voltage is
26 6.78 V (B). V (C).9 V (D).7 V Q.89 With reference to the output waveform given in fig Q the output of the converter will be free from 5 th harmonic when 7 (B) 36 (C) 5 (D) Q.9 An ac induction motor is used for a speed control application. It is driven from an inverter with a constant V/f control. The motor name plate details are as follows V : 45 VPh : 3 f : 5 Hz N : 85 rpm The motor is run with the inverter output frequency set at 4 Hz, and with half the rated slip. The running speed of the motor is 4 rpm (B) 8 rpm (C) 34 rpm (D) 79 rpm END OF THE QUESTION PAPER
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