Design a Bridge FWR to supply a load of (1002) with the waveform shown in figure from the main power supply of (220 Vrms). Find: - 1- The transformer turns ratio (a). Vojuat 2- The ripple voltage. Vm = 12 V 3- The Vdc value. 4- The RMS value of the output voltage. 5- The ripple factor. 6- The value of capacitor filter. (assume ideal diodes) -0.1V T=0.01 sec.

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Design a Bridge FWR to supply a load of (1002) with the waveform shown in figure from the main
power supply of (220 Vrms). Find: -
1- The transformer turns ratio (a).
Vo vot)
2- The ripple voltage.
Vm = 12 V
3- The Vdc value.
Vip
4- The RMS value of the output voltage.
5- The ripple factor.
6- The value of capacitor filter.
= 0.1 V
(assume ideal diodes)
T= 0.01 sec.
tec)
Transcribed Image Text:Design a Bridge FWR to supply a load of (1002) with the waveform shown in figure from the main power supply of (220 Vrms). Find: - 1- The transformer turns ratio (a). Vo vot) 2- The ripple voltage. Vm = 12 V 3- The Vdc value. Vip 4- The RMS value of the output voltage. 5- The ripple factor. 6- The value of capacitor filter. = 0.1 V (assume ideal diodes) T= 0.01 sec. tec)
Q3)
Design a regulated circuit to supply a constant voltage
of (10 V) across a resistive load of (50 N). The input
15 V
15
voltage is shown in the figure. The minimum current
for the Zener diode operation is (Izk=5mA). Find the
maximum power dissipated in the Zener diode.
12.5
12 V
10
Transcribed Image Text:Q3) Design a regulated circuit to supply a constant voltage of (10 V) across a resistive load of (50 N). The input 15 V 15 voltage is shown in the figure. The minimum current for the Zener diode operation is (Izk=5mA). Find the maximum power dissipated in the Zener diode. 12.5 12 V 10
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