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Correct answer is (a) 79.3 V

Explanation: The output voltage of the buck-boost converter is Vo = D×Vin ÷ (1-D)=.85(14)÷.15=79.3 V. It can STEP up and step down the voltage depending upon the value of the duty cycle. If the value of the duty cycle is less than .5 it will WORK as a buck converter and for duty cycle greater than .5 it will work as a boost converter.

The correct CHOICE is (B) 35 A

The BEST explanation: The average inductor current of the Boost converter is Io÷(1-D)=7÷.2=35 A. The average value of the inductor current can be calculated using ampere-sec BALANCE METHOD.

Right ANSWER is (b) 0.99 P.U

The best EXPLANATION: The compensator RATING can be calculated using the relation QP.U=√1-cos^2(∅)=√1-.01=.99. This per unit value VAR compensator is required to improve the power factor of the SYSTEM.

The correct CHOICE is (a) 40 mW

The EXPLANATION is: The output voltage of the buck converter is VO = Vin×(D)=.4. The value of the duty cycle is less than one which MAKES the Vo < Vin. The buck converter is used to step down the voltage. The output power is Vo^2÷R=40 mW.

The correct ANSWER is (a) 1.41

Explanation: The value of the crest FACTOR is Vpeak÷Vr.m.s=141÷100=1.41. It SIGNIFIES the PEAK value is 1.41 times than the r.m.s value.

The correct CHOICE is (d) 0 V

To elaborate: Peak-Peak voltage is equal to the difference between the maximum and MINIMUM voltage. It is mathematically represented as Vp-p=Vmax-Vmin=45-45=0 V. It signifies the signal is DC signal.

The correct answer is (a) Unipolar, Bipolar

Easiest explanation: Unipolar and Bipolar are the TYPES of BLDC motor. They use the HALL effect rotor POSITION SENSOR and optical rotor position sensor.

The CORRECT answer is (a) FASTER acceleration

Easy explanation: Due to low inertia, BLDC motors have faster acceleration. BLDC motors have less weight. They can run at high SPEED than a conventional DC motor.

The CORRECT ANSWER is (a) Changing input DC VOLTAGE

To elaborate: The speed of a BLDC motor can be controlled by changing the input DC voltage or the current using PWM. It can be achievable by using a transistor and chopper.

Right CHOICE is (a) Permanent MAGNET synchronous motor

Explanation: BLDC motor is analogous to Permanent magnet synchronous motor. In BLDC motor armature windings are placed on the stator side. It is more economical and LESS maintenance is REQUIRED. Permanent magnets are placed on the ROTOR side.

Correct choice is (a) True

The explanation: In BLDC motor armature windings are placed on the stator SIDE. It is more economical and LESS maintenance is REQUIRED. Permanent MAGNETS are placed on the rotor side.

The correct option is (b) .44

Explanation: MARK to SPACE is Ton÷Toff. It is the ratio of time for which the SYSTEM is active and the time for which is inactive. M = Ton÷Toff = 4÷(9) = .44.

The CORRECT answer is (a) .055

For explanation I WOULD say: Duty CYCLE is Ton÷Ttotal. It is the ratio of time for which the SYSTEM is active and the time TAKEN by the signal to complete one cycle. D = Ton÷Ttotal=1÷18=.055.

The correct answer is (a) 0 VAR

Explanation: The RESISTOR is a linear element. It only absorbs REAL power and dissipates it in the form of heat. The voltage and current are in the same phase in case of the resistor so the ANGLE between V & I is 0°. Q = VIsin0 = 0 VAR.

The correct choice is (a) .8

Easiest EXPLANATION: Reluctance motor OPERATES at a power FACTOR of .8. The Reluctance motor works on the principle of an Induction motor.

The correct ANSWER is (a) 1.63

The explanation is: The VALUE of the CREST FACTOR is Vpeak÷Vr.m.s=798÷489=1.63 V. It SIGNIFIES the peak value is 1.63 times than the r.m.s value.

The correct ANSWER is (a) 120 V

The explanation: Peak-Peak VOLTAGE is EQUAL to the difference between the maximum and minimum voltage. It is mathematically represented as Vp-p=Vmax-Vmin=180-60=120 V.

Correct choice is (d) 2.7 msec

To ELABORATE: The circuit turn-off TIME for 3-Φ Fully controlled RECTIFIER is (180°-α)÷ω. The VALUE of circuit turn-off time for ∝ ≥ 60° is (180°-120°)÷6.28×60=2.7 msec.

The correct answer is (a) 11.8 msec

To ELABORATE: The CIRCUIT turn-off TIME for 3-Φ Fully CONTROLLED rectifier is (240°-α)÷ω. The VALUE of circuit turn-off time for ∝ < 60° is (240°-27°)÷6.28×50=11.8 msec.

The correct option is (a) Decreases

The BEST I can EXPLAIN: INCREASING the stator POLES decreases the speed of Reluctance motor. The rotating magnetic field is DEVELOPED which rotates at the speed of Ns . Ns∝(1÷P).

Correct choice is (a) True

The explanation is: Reluctance motor can OPERATE on AC SUPPLY. It cannot operate on DC supply. Reluctance MOTORS are singly-excited.

Right answer is (a) Reluctance MOTOR

The EXPLANATION is: Reluctance motor is USED in recording instruments. It is used for many CONSTANT speed applications. The starting torque of the motor depends upon the rotor POSITION.

The correct option is (a) 0

Easiest explanation: The value of the INPUT power FACTOR for 3-Φ FULLY controlled rectifier is .95cos(90°)=0. The input power factor is a product of distortion factor and displacement factor.

Correct answer is (C) Constant voltage and frequency

To EXPLAIN I would say: An infinite bus-bar has constant voltage and constant speed. It has many TYPES like single bus-bar, DOUBLE bus-bar. It is connected to the GRID.

Correct answer is (a) True

For explanation I would SAY: Reluctance MOTORS are singly-excited. Stator SIDE of the motor is excited by an AC source. Due to excitation, a revolving magnetic field is a CREATED and ROTOR rotates with the synchronous speed.

Right ANSWER is (b) False

To elaborate: Angular acceleration is DEFINED as a DERIVATE of angular velocity with respect to time. It is GENERALLY WRITTEN as α. The unit of angular velocity is rad/sec and of time is second so the unit of angular acceleration is rad/s^2.

The correct option is (a) True

To explain: The Buck converter is USED in MOTORING mode but a Boost converter can operate only BRAKING mode because the characteristics are in the SECOND quadrant only.

Right choice is (c) 8.6 V

Explanation: The output voltage of the buck-BOOST converter is Vo = D×Vin ÷ (1-D)=.1(78)÷.9=8.6 V. It can step up and step down the voltage depending upon the VALUE of the duty cycle. If the value of the duty cycle is LESS than .5 it will work as a buck converter and for duty cycle greater than .5 it will work as a boost converter.

Correct answer is (b) 20 V

To explain: The output voltage of the boost converter is Vo = VIN ÷ (1-D) = 8÷.4 = 20 V. The value of the duty cycle is less than ONE which makes the Vo > Vin as denominator value decreases and becomes less than one. The boost converter is used to STEP up the voltage.

Correct ANSWER is (a) 4.4 V

The explanation: The output voltage of the buck converter is Vo = Vin×(D)=11×.4=4.4 V. The VALUE of the DUTY cycle is less than one which MAKES the Vo < Vin. The buck converter is used to step down the voltage.

Right OPTION is (d) .5

For explanation I would say: The value of the CREST factor is Vpeak÷Vr.m.s=12÷24=.5. It SIGNIFIES the peak value is .5 TIMES than the r.m.s value.

Correct option is (a) 60 V

Easy EXPLANATION: Peak-Peak VOLTAGE is equal to the difference between the maximum and MINIMUM voltage. It is mathematically represented as Vp-p=Vmax-Vmin=80-20=60 V.

Right option is (C) 10.1 msec

To EXPLAIN I would say: The CIRCUIT turn-off time for 3-Φ FULLY controlled rectifier is (240°-α)÷ω. The VALUE of circuit turn-off time for ∝ < 60° is (240°-20°)÷6.28×60=10.1 msec.

Right option is (B) 572.8 V

To explain: In 3-Φ Semi-controlled RECTIFIER, the average value of the VOLTAGE is 3Vml(1+cos(∝))÷2π=3×440×√2(1+cos(22°))÷6.28=572.8 V.

Right option is (d) 31 %

Explanation: The VALUE of the distortion factor is .95. The value of THD value for 3-Φ FULLY CONTROLLED rectifier is √(1÷.95)^2-1=31 %. THD measures the amount of HARMONIC distortion.

The correct answer is (a) .32

Best EXPLANATION: The value of the input POWER factor for 3-Φ Fully controlled RECTIFIER is .95cos(70°)=.32. The input power factor is a product of DISTORTION factor and displacement factor.

Correct choice is (C) 6

Explanation: The pulse NUMBER can be calculated using the RATIO of input frequency to the output frequency. The value of pulse number (P) is 2π÷π÷3=6. It is a six-pulse CONVERTER.

Right option is (a) 40 Hz

Easy EXPLANATION: The OUTPUT of a TWO-pulse converter consists of two PULSES in one cycle. The output frequency of the two pulse converter is 2×supply frequency=2×20=40 Hz.

The CORRECT CHOICE is (b) .98

Explanation: Fundamental displacement factor is the cosine of ANGLE DIFFERENCE between the fundamental voltage and fundamental current. The fundamental displacement factor for 1-Φ FULL wave semi-converter is cos(∝÷2)=cos(10°)=.98.

Right OPTION is (a) .5

The explanation is: Fundamental DISPLACEMENT factor is the COSINE of angle DIFFERENCE between the fundamental voltage and fundamental current. D.F=cos(∝)=cos(60°)=0.5.

Correct choice is (d) .63

For EXPLANATION: The value of the input POWER FACTOR for 1-Φ Full WAVE bridge rectifier is .9cos(45°)=.63. The input power factor is a product of distortion factor and displacement factor.

Right option is (a) 48.43 %

Easiest EXPLANATION: The value of the DISTORTION FACTOR is .9. The value of THD value for 1-Φ Full wave bridge rectifier is √(1÷.9)^2-1=48.43 %. THD measures the amount of harmonic distortion.

Correct CHOICE is (a) 1.414 A

Easy EXPLANATION: The r.m.s value of the current through the thyristor in case of 1-∅ full WAVE bridge RECTIFIER is Io÷√2=√2 A=1.414 A. Each thyristor conducts for 180°.

Correct answer is (a) 21 A

For explanation: The average value of the CURRENT through the THYRISTOR in case of 1-∅ full wave BRIDGE rectifier is Io÷2=21 A. Each thyristor CONDUCTS for 180°.