7. Refer to Figure 6. 10:1 120 V rms Output Vpipri) Vptsec) 60 Hz C. RL 220 N D2 D4 1000µF All diodes are IN4001. Figure 6 a. Determine Vp(in), Vp(pri) and Vp(sec) and Vp(out). Assume Si practical diodes are used. b. What is the frequency of the output voltage? Draw the voltage waveforms for Vin), V(pri) and V(sec), V(out) (before adding the capacitor) and V(out) (after adding the capacitor). С. alll

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7. Refer to Figure 6.
10:1
D3
D1
120 V rms
Output
Vpipri)
Vp(sec)
60 Hz
RL
220 N
C.
D4
1000 µF
All diodes are IN4001.
Figure 6
Determine Vp(in), Vp(pri) and Vp(sec) and Vplout) . Assume Si practical diodes are used.
b. What is the frequency of the output voltage?
Draw the voltage waveforms for Vin), V(pri) and V(sec), V(out) (before adding the capacitor) and
V(out) (after adding the capacitor).
d. Determine the ripple factor (r) for the filtered bridge rectifier.
If the filter capacitor is increased to 2200 µF and load resistance is changed to 2.2 kO,
determine the ripple factor. Compare the ripple factor calculated in (d). What is your
а.
C.
е.
observation?
Transcribed Image Text:7. Refer to Figure 6. 10:1 D3 D1 120 V rms Output Vpipri) Vp(sec) 60 Hz RL 220 N C. D4 1000 µF All diodes are IN4001. Figure 6 Determine Vp(in), Vp(pri) and Vp(sec) and Vplout) . Assume Si practical diodes are used. b. What is the frequency of the output voltage? Draw the voltage waveforms for Vin), V(pri) and V(sec), V(out) (before adding the capacitor) and V(out) (after adding the capacitor). d. Determine the ripple factor (r) for the filtered bridge rectifier. If the filter capacitor is increased to 2200 µF and load resistance is changed to 2.2 kO, determine the ripple factor. Compare the ripple factor calculated in (d). What is your а. C. е. observation?
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