5. Bridge Rectifier Voltage Regulator 5.1. Analytical Solution The circuit for a Bridge Rectifier Voltage Regulator is shown in Figure 6. D1 Vsecondary Vfiltered VDC Voltage Regulator D2 V1 sine (A 120 VAC @ 60 Hz C1 Rload D3 10:1 D4 Figure 6: Bridge Rectifier Voltage Regulator Circuit The filter capacitor C, is recharged on every half-cycle of Vsecondary. Given: VDc = 5 V Rload = 100 N Vpiodes = 0.7 V Assume the voltage regulator does not require additional current 1. What is the minimum value of capacitor C, required such that Vfiutered does not drop below 8 V? Use the design equation in the class notes (but make sure you use the right "frequency" and the correct ripple voltage).

5. Bridge Rectifier Voltage Regulator 5.1. Analytical Solution The circuit for a Bridge Rectifier Voltage Regulator is shown in Figure 6. D1 Vsecondary Vfiltered VDC Voltage Regulator D2 V1 sine (A 120 VAC @ 60 Hz C1 Rload D3 10:1 D4 Figure 6: Bridge Rectifier Voltage Regulator Circuit The filter capacitor C, is recharged on every half-cycle of Vsecondary. Given: VDc = 5 V Rload = 100 N Vpiodes = 0.7 V Assume the voltage regulator does not require additional current 1. What is the minimum value of capacitor C, required such that Vfiutered does not drop below 8 V? Use the design equation in the class notes (but make sure you use the right "frequency" and the correct ripple voltage).

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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