Q No. 4. The buck regulator in Fig. 3 has an input voltage Vs = 15V. The required output voltage is Vo-12V and the peak-to-peak output ripple voltage is 8mV. The switching frequency is 20KHZ. The peak- to-peak ripple current is limited to 0.5A. Determine (a) duty cycle, D (b) filter inductance L; (c) filter Capacitor C. [2] [4] [4] [CLO-1] [CLO-2] [CLO-3] Q, İL.L İç, le lo, la 추 Dm No V, Vo, Va Load Control Fig. 3

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Q No. 4.
The buck regulator in Fig. 3 has an input voltage Vs = 15V. The required output voltage is
Vo=12V and the peak-to-peak output ripple voltage is 8mV. The switching frequency is
20KHz. The peak- to-peak ripple current is limited to 0.5A. Determine
(a) duty cycle, D [2] [CLO-1]
(b) filter inductance L; [4] [CLO-2]
(c) filter Capacitor C. [4]

Q No. 4.
The buck regulator in Fig. 3 has an input voltage Vs = 15V. The required output voltage is
Vo=12V and the peak-to-peak output ripple voltage is 8mV. The switching frequency is
20KHZ. The peak- to-peak ripple current is limited to 0.5A. Determine
(a) duty cycle, D
(b) filter inductance L;
(c) filter Capacitor C.
[2]
[4]
[4]
[CLO-1]
[CLO-2]
[CLO-3]
Q,
추 Dm
Vc
Vo, Va
Load
Control
Fig. 3
Transcribed Image Text:Q No. 4. The buck regulator in Fig. 3 has an input voltage Vs = 15V. The required output voltage is Vo=12V and the peak-to-peak output ripple voltage is 8mV. The switching frequency is 20KHZ. The peak- to-peak ripple current is limited to 0.5A. Determine (a) duty cycle, D (b) filter inductance L; (c) filter Capacitor C. [2] [4] [4] [CLO-1] [CLO-2] [CLO-3] Q, 추 Dm Vc Vo, Va Load Control Fig. 3
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