The resistor-loaded buck converter has an input voltage of 30[V], an output voltage of 10 [V], and aswitching frequency of 30 [kHz). If the average output power is 25[W], calculate the inductance ofthe coil so that the minimum value of the coil current is 25% of the average coil current.The buck converter with resistive load has the input voltage of 3O[V], the output voltage of 10 [V](constant), and the switching frequency of 30 [kHz]. If the output average power is 25[W], thendetermine the size of the inductor such that the minimum inductor current is 25 % of the averageinductor current.O 148.15 micro HenryO 59.26 micro HenryO 32.78 micro HenryO 124.56 micro Henry74.07 micro Henry88.89 micro HenryO 118.52 micro HenryO 44.44 micro Henry

The resistor-loaded buck converter has an input voltage of 30[V], an output voltage of 10 [V], and a switching frequency of 30 [kHz). If the average output power is 25[W], calculate the inductance of the coil so that the minimum value of the coil current is 25% of the average coil current. The buck converter with resistive load has the input voltage of 30[V], the output voltage of 10 [V] (constant), and the switching frequency of 30 [kHz]. If the output average power is 25[W], then determine the size of the inductor such that the minimum inductor current is 25 % of the average inductor current. O 148.15 micro Henry O 59.26 micro Henry O 32.78 micro Henry O 124.56 micro Henry 74.07 micro Henry O 88.89 micro Henry O 118.52 micro Henry 44.44 micro Henry

The resistor-loaded buck converter has an input voltage of 30[V], an output voltage of 10 [V], and a switching frequency of 30 [kHz). If the average output power is 25[W], calculate the inductance of the coil so that the minimum value of the coil current is 25% of the average coil current. The buck converter with resistive load has the input voltage of 30[V], the output voltage of 10 [V] (constant), and the switching frequency of 30 [kHz]. If the output average power is 25[W], then determine the size of the inductor such that the minimum inductor current is 25 % of the average inductor current. O 148.15 micro Henry O 59.26 micro Henry O 32.78 micro Henry O 124.56 micro Henry 74.07 micro Henry O 88.89 micro Henry O 118.52 micro Henry 44.44 micro Henry

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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