An engineer wants to design a half-wave rectifier for some of his circuit application. Unfortunately,he has only Zener diodes available for his experiment. The I-V curve of the Zener diode is as follows:Vz = 5 VRz = 100 0%3DVON = 0.8 VVoThe half-wave rectifier circuit is shown below: Us= Vp sin otThe rms value of the transformer output voltage is 15 V and operating frequency is 50 Hz.a. For R = 1 kN and C= 2 µF, please plot the output voltage Vo vs. time (on the same axis,clearly show, the input voltage and the output voltage vs. time). You can assdecay function for capacitance discharge. Thus, the output potential during discharge will beVo (t) = (Vp-VON) exp (-t’/RC), where t' = t-T/4.b. What is the maximum RMS value of the transformer output voltage which can be rectifiedusing this Zener diode-based rectifier?heponential

Half wave rectifier with capacitor Capacitor charges and discharges once in one time period.…

An engineer wants to design a half-wave rectifier for some of his circuit application. Unfortunately, he has only Zener diodes available for his experiment. The I-V curve of the Zener diode is as follows:

An engineer wants to design a half-wave rectifier for some of his circuit application. Unfortunately, he has only Zener diodes available for his experiment. The I-V curve of the Zener diode is as follows:

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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