Q4: Design a buck converter such that the output voltage varies between from 20V to 28V while the input voltage is 40V. The maximum load power is 200Wdc. Assume the switching frequency is 15kHz. (a) Design the converter such that it will be in continuous current mode. (b) The capacitor realized output voltage ripple must not be more than 1% at worst case. (c) The inductance realizes CCM at worst case. (d) Select the appropriate switch and other elements...

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Q4: Design a buck converter such that the output voltage varies between from 20V to 28V
while the input voltage is 40V. The maximum load power is 200Wdc. Assume the switching
frequency is 15kHz.
(a) Design the converter such that it will be in continuous current mode.
(b) The capacitor realized output voltage ripple must not be more than 1% at worst case.
(c) The inductance realizes CCM at worst case.
(d) Select the appropriate switch and other elements...
Transcribed Image Text:Q4: Design a buck converter such that the output voltage varies between from 20V to 28V while the input voltage is 40V. The maximum load power is 200Wdc. Assume the switching frequency is 15kHz. (a) Design the converter such that it will be in continuous current mode. (b) The capacitor realized output voltage ripple must not be more than 1% at worst case. (c) The inductance realizes CCM at worst case. (d) Select the appropriate switch and other elements...
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