(b) Figure 5 shows a circuit containing a Zener diode (left) and the Zener diode model (right). The circuit is excited by the voltage vin(t) = 12 sin(2π1000t) V, as shown. Sketch the output voltage vout (t) over two periods. Make sure to show the general steps followed to find the output voltage. + Vin(t) R₁ 33 ΚΩ K ° + VZ D Vout (t) 27 ΚΩ R2 + 6.2 V Dideal VZ Dideal A ° Figure 5: A Zener circuit excited by a sinusoid (left) and the Zener model (right).

(b) Figure 5 shows a circuit containing a Zener diode (left) and the Zener diode model (right). The circuit is excited by the voltage vin(t) = 12 sin(2π1000t) V, as shown. Sketch the output voltage vout (t) over two periods. Make sure to show the general steps followed to find the output voltage. + Vin(t) R₁ 33 ΚΩ K ° + VZ D Vout (t) 27 ΚΩ R2 + 6.2 V Dideal VZ Dideal A ° Figure 5: A Zener circuit excited by a sinusoid (left) and the Zener model (right).

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter21: Resistive-capacitive Series Circuits

Section: Chapter Questions

Problem 7RQ: An RC series circuit is connected to a 120-V, 60-Hz power source. The resistor is 25 and has a...

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