A circuit of 3-Phase Controlled Half Wave Rectifier with Resistive load is as below. eeceecee If the firing angle, a are to set at 7/9, complete the circuit operation for the whole cycle (0° to 360°) for the period stated in Table 1. By using appropriate scale, draw a waveform of Average Output Voltage, Vo(avg). Derive an equation for the average output voltage, Vo(avg). If the rectifier is connected to 208V, calculate the Vo(avg) if the load is purely resistive. (C3, CLO1) eeleeeee

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2. A circuit of 3-Phase Controlled Half Wave Rectifier with Resistive load is as below.
A
T2
eleeeeee
B
If the firing angle, a are to set at r/9, complete the circuit operation for the whole
cycle (0° to 360°) for the period stated in Table 1. By using appropriate scale, draw
a waveform of Average Output Voltage, Vo(avg). Derive an equation for the average
output voltage, Vo(avg). If the rectifier is connected to 208V, calculate the Vo(avg) if the
load is purely resistive. (C3, CLO1)
Duration Period
s1
S2
S3
Vout
1
0° – 20°
20° – 50°
3
50° – 120°
4
120° – 140°
140° – 170°
170° – 240°
7
240° – 260°
8
260° – 290°
290° – 360°
Table 1
Transcribed Image Text:2. A circuit of 3-Phase Controlled Half Wave Rectifier with Resistive load is as below. A T2 eleeeeee B If the firing angle, a are to set at r/9, complete the circuit operation for the whole cycle (0° to 360°) for the period stated in Table 1. By using appropriate scale, draw a waveform of Average Output Voltage, Vo(avg). Derive an equation for the average output voltage, Vo(avg). If the rectifier is connected to 208V, calculate the Vo(avg) if the load is purely resistive. (C3, CLO1) Duration Period s1 S2 S3 Vout 1 0° – 20° 20° – 50° 3 50° – 120° 4 120° – 140° 140° – 170° 170° – 240° 7 240° – 260° 8 260° – 290° 290° – 360° Table 1
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