Zener diode:(14)(15)+15V DC{ 200 ΩZeroVoutUsing DC analysts and neglecting ro, what is the voltageZeroAt the chosen operating point,the linearized Zener diode model is:{ 1kΩ4.757 VGAV4.757 VV-DAVk, 2 mA/V²kh☐5.07 V+Using the given linearized Zener model, what is Iz in the regulator circuit?□ Zero☐ 1.05 mA□ 12.5 mA44.59 MAVzUsing the linearized Zener model, what is Vout in the regulator circuit?□5.07 V5.24 V□5.24 VO{ r₁=79ZZVVzo=4.757 V67.9 mA☐ 12.5 V(16) Using the linearized Zener model, if the power supply in the regulator circuit increases from+15V to +20V, what does Vout become?□ 12.5 V$7.1 µA☐ 15 V143 A☐ 20 V

Answered: Image /qna-images/answer/dc860d12-1133-4eed-8f7e-38b274cde435.jpg

Zener diode: (14) (15) +15V DC { 200 Ω Vout Zero At the chosen operating point, the linearized Zener diode model is: Using DC analysis and neglecting r. what is the voltage { 1kΩ ☐ 1.05 mA 04.757 V 26 V 4.757 V □ 12.5 mA V-DAY k, 2 mA/V² kh Using the given linearized Zener model, what is Iz in the regulator circuit? □ Zero 44.59 MA ☐5.07 V + Vz □5.24 V O Using the linearized Zener model, what is Vout in the regulator circuit? Zero 5.07 V 5.24 V { r₁=79 Z DZV Vzo = 4.757 V ZO 67.9 mA ☐ 12.5 V (16) Using the linearized Zener model, if the power supply in the regulator circuit increases from +15V to +20V, what does Vout become? □ 12.5 V 57.1 µA 15 V ☐ 20 V

Zener diode: (14) (15) +15V DC { 200 Ω Vout Zero At the chosen operating point, the linearized Zener diode model is: Using DC analysis and neglecting r. what is the voltage { 1kΩ ☐ 1.05 mA 04.757 V 26 V 4.757 V □ 12.5 mA V-DAY k, 2 mA/V² kh Using the given linearized Zener model, what is Iz in the regulator circuit? □ Zero 44.59 MA ☐5.07 V + Vz □5.24 V O Using the linearized Zener model, what is Vout in the regulator circuit? Zero 5.07 V 5.24 V { r₁=79 Z DZV Vzo = 4.757 V ZO 67.9 mA ☐ 12.5 V (16) Using the linearized Zener model, if the power supply in the regulator circuit increases from +15V to +20V, what does Vout become? □ 12.5 V 57.1 µA 15 V ☐ 20 V

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...

See similar textbooks

Similar questions

The current through the diode in the circuit given in the Figure below when Vy = 0.7 V is? ww 8092 12V Select one a. 24.26 mA b. 13.09 mA c. 58.23 mA d. 40.13 mA 40-52 ww 3092 ID
Determine the output voltage V out of the circuit shown in Figure. However, when the Zener diode is forward biased, the voltage of both ends is approximated to 0.7V.
If the positive cycle of the waveform for full wave bridge rectifier , Which of the diodes is working . ..... ...... 10:1 D1 120 V ms Output 60 Hz Puec) RL 220 N D2 1000 µF D1, D2 D3, D2 D4, D2 O D1, D4 not all above O D1, D3 elle
Power supply circuit is delivering 0.5 A and an average voltage 20 V to the load as shown in the circuit below. The ripple voltage of the half wave rectifier is 0.5 V and the diode is represented using constant voltage model. The smoothing capacitor value is equal to 220V omsh RL VI-DC20V 0.01 F 0.02 F 0.0167 F None of the above
Q
Consider diode circuit shown below with Vcc=5V and V₂ = 3V. U₁A HH +V₂ ū The peak inverse voltage on the diode is close to V₁ V. A Vo
PLEASE ANSWER THIS MCQ
The rate of fall of current in a diode with reverse recovery charge and reverse recovery current of 59 µC and 37.5 A respectively is_______________________ A/µs .
Quiq
Note: The diode is silicone. Complete explanation please thank you
For a certain 12 V zener diode, a 10 mA change in zener current produces a 0.05 V change in zener voltage. The zener impedance for this current range is Ο ° a. 50 b. 1Ω C.0.1Ω d. 10 Q
Can this question be solved as soon as possible?Or a maximum of 10 minutes