(b) in 120 VRMS sine 60 Hz (i). (ii). D1 (iii). D2 Figure 3 Referring to the full wave rectifier circuit in Figure 3. The secondary transformer is centre tapped and the ratio of primary coil and secondary coil (Np:Ns) is 4:1. (Vd=0.7 V) Solve the secondary transformer peak voltage, V sp Calculate the DC voltage, Voc of D1 when it is conducted, and current across R1, out Draw the output voltage waveform of D1 and D2. R1 100 Ω
(b) in 120 VRMS sine 60 Hz (i). (ii). D1 (iii). D2 Figure 3 Referring to the full wave rectifier circuit in Figure 3. The secondary transformer is centre tapped and the ratio of primary coil and secondary coil (Np:Ns) is 4:1. (Vd=0.7 V) Solve the secondary transformer peak voltage, V sp Calculate the DC voltage, Voc of D1 when it is conducted, and current across R1, out Draw the output voltage waveform of D1 and D2. R1 100 Ω
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Transcribed Image Text:î
(b)
in
120 VRMS
sine
60 Hz
(ii).
D1
(iii).
D2
Figure 3
Referring to the full wave rectifier circuit in Figure 3. The secondary
transformer is centre tapped and the ratio of primary coil and
secondary coil (Np:Ns) is 4:1. (Vd=0.7 V)
(i).
Solve the secondary transformer peak voltage,
V sp
Calculate the DC voltage, VDC of D1 when it is
conducted, and current across R1,
out
Draw the output voltage waveform of D1 and D2.
R1
100 Ω
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