# Three Phase Half Wave Controlled Rectifier with Resistive Load MCQ [Free PDF] – Objective Question Answer for Three Phase Half Wave Controlled Rectifier with Resistive Load Quiz

1. Calculate the Vo(avg) for the 3-Φ phase Half-wave uncontrolled rectifier if the supply value is 440 V.

A. 297.25 V
B. 298.15 V
C. 298.11 V
D. 300.15 V

The Vo(avg) for the 3-Φ phase Half-wave uncontrolled rectifier is 3Vml÷2π. The value of output voltage is

3Vml÷2π
=3×√2×440÷6.28=297.25 V.

2. Calculate the pulse number if the supply frequency is 2π and the output frequency is 2π÷3.

A. 4
B. 5
C. 6
D. 3

The pulse number can be calculated using the ratio of input frequency to the output frequency. The value of pulse number (P) is 2π÷(2π÷3)=3. It is a three-pulse converter or 3-Φ phase Half-wave uncontrolled rectifier.

3. Calculate the average value of current for the 3-Φ phase Half-wave uncontrolled rectifier if the supply value is 400 V and the resistive load value is 5 Ω.

A. 54.04 A
B. 57.26 A
C. 51.64 A
D. 58.15 A

The Io(avg) for the 3-Φ phase Half-wave uncontrolled rectifier is 3Vml÷2πR.

The value of output voltage is

3Vml÷2πR
=3×√2×440÷6.28×5=54.04 A.

4. In a 3-Φ Fully controlled rectifier calculate the average value of the voltage if the supply is 400 V and the firing angle is 45°.

A. 381.15 V
B. 382.16 V
C. 383.19 V
D. 384.25 V

In 3-Φ Fully controlled rectifier, the average value of the voltage is

3Vml(cos(∝))÷π

=3×400×√2(cos(45°))÷3.14=382.16 V.

5. Calculate the Vo(r.m.s) (Highly inductive load. for the 3-Φ phase Half-wave uncontrolled rectifier if the supply value is 441 V.

A. 297.25 V
B. 298.15 V
C. 298.11 V
D. 300.15 V

The Vo(r.m.s) for the 3-Φ phase Half-wave uncontrolled rectifier is 3Vml÷2π. The value of output voltage is

3Vml÷2π
=3×√2×441÷6.28=297.25 V.

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6. Calculate the Vo(avg) for the 3-Φ phase Half-wave controlled rectifier if the supply value is 364 V and the value of firing angle is 2°.

A. 247.62 V
B. 245.76 V
C. 214.26 V
D. 233.26 V

The Vo(avg) for the 3-Φ phase Half-wave controlled rectifier is 3Vmlcos(α)÷2π.

The value of output voltage is 3Vmlcos(α)÷2π

=3×√2×364×(.99)÷6.28=245.76 V.

7. Calculate the value of the Input power factor for a 3-Φ Fully controlled rectifier if the firing angle value is 16°.

A. .96
B. .91
C. .93
D. .94

The value of the input power factor for a 3-Φ Fully controlled rectifier is .95cos(16°)=.91. The input power factor is a product of the distortion factor and displacement factor.

8. In a 3-Φ semi-controlled rectifier calculate the average value of the voltage if the supply is 299 V and the firing angle is 56.15°.

A. 311.26 V
B. 304.26 V
C. 314.51 V
D. 312.45 V

In 3-Φ Semi-controlled rectifier, the average value of the voltage is

3Vml(1+cos(∝))÷2π
=3×299×√2(1+cos(56.15°))÷6.28=314.51 V.

9. Calculate the circuit turn-off time for 3-Φ Fully controlled rectifier if the firing angle is 13° and the supply frequency is 49.5 Hz.

A. 730.2 msec
B. 740.8 msec
C. 754.5 msec
D. 755.1 msec

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°-13°)÷6.28×49.5=730.2 msec.

10. Calculate the circuit turn-off time for 3-Φ Fully controlled rectifier if the firing angle is 170° and the supply frequency is 50.5 Hz.

A. 32.4 msec
B. 35.2 msec
C. 39.3 msec
D. 31.5 msec