A single-phase single-pulse diode rectifier (Fig. 3.1), with a resistive load (R=100 0), is fed from an AC voltage source v,(t) =Vs -/2 - sin(@t), where Vs=240 V, f=50 Hz. Fig. 3.1. A single-phase single-pulse diode rectifier with a resistive load a) Calculate the load voltage ripple factor or distortion factor in terms of average and RMS values and explain the result (the value obtained); b) Replace the resistive load with an inductive-resistive one (R-L load), having R=100 0, L=0.06 H. Sketch the load voltage and current waveforms for this c) case and explain the four distinct regions for each supply period (cycle); Calculate the average DC output voltage for the topology from the previous case (3 b,
A single-phase single-pulse diode rectifier (Fig. 3.1), with a resistive load (R=100 0), is fed from an AC voltage source v,(t) =Vs -/2 - sin(@t), where Vs=240 V, f=50 Hz. Fig. 3.1. A single-phase single-pulse diode rectifier with a resistive load a) Calculate the load voltage ripple factor or distortion factor in terms of average and RMS values and explain the result (the value obtained); b) Replace the resistive load with an inductive-resistive one (R-L load), having R=100 0, L=0.06 H. Sketch the load voltage and current waveforms for this c) case and explain the four distinct regions for each supply period (cycle); Calculate the average DC output voltage for the topology from the previous case (3 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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