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...

See similar textbooks

Similar questions

Problem #1 A de-de converter produces 5V output with 2% line regulation and zero load regulation. The output leads connected to the load have a resistance of 4x10-32. Determine the worst-case minimum and maximum expected voltage at the load terminals for operation over full allowed input voltage range and a load variation over a range of 10W to 100W.
Working principle of boost DC TO DC converter
3. help please
A single-phase converter contams three uncontrolled and one controlled power electronic switches. A smgle-phase 230 V. 50 Hz supply is given to the converter and feeding a resistive load of 47 is connected. Find theaverage power delivered to the load for a firing angle of 45°.
Parts D and E only please, thank you!
For the buck-boost converter, determine the duty cycle, the switching frequency, and the inductor current ripple. The output voltage ripple is about 1%. vs 10 V, mH, C 0.5 micro.F, Vout=-20 V, R-IO Q
Draw and explain in own words the circuit diagram for improved seriest voltage regulator
An RL load (R=0.2 Ohms, L=10 mH) is controlled by a converter. The supply voltage Vs is 600V and the chopper frequency is 200 Hz. The maximum peak to peak ripple current is equal to: Select one: a. 30A b. 55A c. 90A d. 75A
9- Buck type DC-DC converter, if the input voltage is 789 V and the occupancy-backlash ratio is 0.9, which of the following options is the correct load voltage. a) 710.1 etc) None c) O 7101 V d) O 78.9 V
b) A Buck-Boost converter has an output of 24 V from a 5 V input with diode ripple current of 2.4 A and switching frequency of 100 kHz. Find the duty cycle and the inductance of the converter.
18. A dc-dc converter is to be built with the following specifications: Allowed dc input voltage range: +8 V to +18 V +24 V Output average voltage: Output voltage ripple: ±0.06 V maximum at rated load 300 W, resistive ±250 mA maximum at rated load 100 kHz Rated load: Input current ripple: Switching frequency: Common ground between input and output. a. Draw a circuit which can perform this function. b. What is the necessary range of duty ratio for each switch? c. Find circuit part values (R, L, and C) which will meet the stated specifications.
The initial delay of 30 degree replaced by 20 degree, in three phase half wave controlled converter with RL load, if T2 is triggered at 200 degree, what may be the firing angle of the converter? a. 120 degree b. 60 degree O c. 20 degree O d. 80 degree