PROBLEM SET1. Derive the formula for the RMS value for the followinga)b)3m2. Design a rectifier fed from 220-V line through a step-down transformer.The load requires an average voltage of 9 V and average power of 2.5W. Use each of the three circuits: half-wave, center-tapped full-waveand bridge type full-wave.3. Following the analysis applied to the half-wave rectifier with capacitorfilter, show how to arrive at the output waveform for a center-tappedfull-wave with filter capacitor. See output waveform on page 90.4. Given: Half-wave rectifier; transformer secondary voltage = 32 V;Capacitance 4700 µF; average load voltage 18 V. Determine ripplefactor and average load current5. Design a half-wave rectifier with a capacitor filter that will deliver to theload an average voltage is 15 V at 280 mA. Ripple should not behigher than 5%.6. Given: The input to a voltage regulator circuit varies from 11.4 to 12.2V. The load voltage is to be maintained at 9.1V with maximum currentof 95 mA.a) Which of the following zener diode can be used?Diode A: 9.1 V, 1 W; Diode B: 9.1 V, 2 W; Diode C: 9.1 V, 3 W; Diode D:9.1 V, 5 WList all standard resistance values that can be used.7. Analyze the n-stage voltage multiplier circuit and complete the tablebelow: Support your entries.Half-CycleCapacitor VoltageState of diodeFB: forward-biasedRB: reverse-biasedOutput VoltageDI D2D3 D4D5CIC2 C3C4C5 volvo2vo3vo4vo51" Negative1 Positive2nd Negative2nd Positive3rd Negative

1. a) eo=ep sint ;0⩽t⩽π-ep sint ;π⩽t⩽2πTime period T=2πRMS value…

Answered: 1. Derive the formula for the RMS value…

Engineering

Electrical Engineering

1. Derive the formula for the RMS value for the following a) b)

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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