Fast solve 1. The input of a full-wave rectifier is a cosineVvoltage with peak M = 5 V and frequency 60Hz, and output load resistance is R = 2 k2.Silicon diodes are used in this circuit forVwhich the forward drop is DO = 0.7 V.(a) Briefly explain the purpose of a rectifierand describe its operation.(b) Show the input and output waveforms.(c) Calculate the DC value of the outputvoltage.Now after connecting a capacitor in parallelwith the load, the output becomes a rippleVvoltage Vout= DC ±0.2 V(d) Calculate the peak-to-peak ripplevoltage, and from that, the value of thecapacitor.(e) Calculate the average of the output voltageVDC after connecting the capacitor. Comparethis with the DC value determined in 'c' andcomment on the difference between thesetwo.

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1. The input of a full-wave rectifier is a cosine V voltage with peak M = 5 V and frequency 60 Hz, and output load resistance is R = 2 k. Silicon diodes are used in this circuit for V. which the forward drop is DO = 0.7 V. (a) Briefly explain the purpose of a rectifier and describe its operation. (b) Show the input and output waveforms. (c) Calculate the DC value of the output voltage.

1. The input of a full-wave rectifier is a cosine V voltage with peak M = 5 V and frequency 60 Hz, and output load resistance is R = 2 k. Silicon diodes are used in this circuit for V. which the forward drop is DO = 0.7 V. (a) Briefly explain the purpose of a rectifier and describe its operation. (b) Show the input and output waveforms. (c) Calculate the DC value of the output voltage.

Electric Motor Control

10th Edition

ISBN:9781133702818

Author:Herman

Publisher:Herman

Chapter59: Motor Startup And Troubleshooting Basics

Section: Chapter Questions

Problem 12SQ: How is a solid-state diode tested? Explain.

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