Q5. A full-wave bridge rectifier circuit is shown in Fig. Q5. Forward voltage of each diode 0.7V; Vin = 220Vrms; R₁ = 3 k2; The turns-ratio of the transformer is 40:2. Vin Vprimary secondary D3. D2 D1 D4 R Fig. Q5 (a) Determine the peak voltage of the primary winding of the transformer. (b) Determine the peak voltage of the secondary winding of the transformer. (c) Determine the rectified peak output voltage at R₁. (d) Determine the peak current flow through R₁. (e) Determine the average output voltage across RL. (f) Determine the peak inverse voltage (PIV) across the diodes.

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Q5. A full-wave bridge rectifier circuit is shown in Fig. Q5. Forward voltage of each diode is
0.7V; Vin = 220Vrms; R₁ = 3 k2; The turns-ratio of the transformer is 40:2.
Vin
Vprimary secondary
D3
D2
D1
D4
R₁
Fig. Q5
(a) Determine the peak voltage of the primary winding of the transformer.
(b) Determine the peak voltage of the secondary winding of the transformer.
(c) Determine the rectified peak output voltage at R₁.
(d) Determine the peak current flow through RL.
(e) Determine the average output voltage across RL.
(f) Determine the peak inverse voltage (PIV) across the diodes.
Transcribed Image Text:Q5. A full-wave bridge rectifier circuit is shown in Fig. Q5. Forward voltage of each diode is 0.7V; Vin = 220Vrms; R₁ = 3 k2; The turns-ratio of the transformer is 40:2. Vin Vprimary secondary D3 D2 D1 D4 R₁ Fig. Q5 (a) Determine the peak voltage of the primary winding of the transformer. (b) Determine the peak voltage of the secondary winding of the transformer. (c) Determine the rectified peak output voltage at R₁. (d) Determine the peak current flow through RL. (e) Determine the average output voltage across RL. (f) Determine the peak inverse voltage (PIV) across the diodes.
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