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You and your crew have made it through the night and the day has brought more warmth. After searching  the industrial site, you find an abundant amount of fuel to run the generators to keep you warm. You also  find a memory card labelled “cure”, but your cell phone battery is dead. First things first, you will need to  stay safe as the zombies continue to hunt you in your current location. The industrial site is surrounded  by a metal chain-link fence. You decide you will electrify the fence to keep the zombies from scaling it.  But the output voltage from the generators is not high enough to really deter them. You would like to  apply around 10 kV to the fence (AC or DC, at that voltage it doesn’t really matter). You find a transformer  that you can use but it only has a turn ratio of 10. You find some diodes and capacitors and construct the  circuit shown in Figure 3 with the intention of hooking Vout to the fence.  hypothesize how you could adapt this circuit  with additional capacitors and diodes to reach an output voltage of near 10 kV. Include your proposed  circuit diagram and an explanation of why this will work. Construct the circuit you designed

You and your crew have made it through the night and the day has brought more warmth. After searching  the industrial site, you find an abundant amount of fuel to run the generators to keep you warm. You also  find a memory card labelled “cure”, but your cell phone battery is dead. First things first, you will need to  stay safe as the zombies continue to hunt you in your current location. The industrial site is surrounded  by a metal chain-link fence. You decide you will electrify the fence to keep the zombies from scaling it.  But the output voltage from the generators is not high enough to really deter them. You would like to  apply around 10 kV to the fence (AC or DC, at that voltage it doesn’t really matter). You find a transformer  that you can use but it only has a turn ratio of 10. You find some diodes and capacitors and construct the  circuit shown in Figure 3 with the intention of hooking Vout to the fence.  hypothesize how you could adapt this circuit  with additional capacitors and diodes to reach an output voltage of near 10 kV. Include your proposed  circuit diagram and an explanation of why this will work. Construct the circuit you designed

Introductory Circuit Analysis (13th Edition)
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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You and your crew have made it through the night and the day has brought more warmth. After searching 
the industrial site, you find an abundant amount of fuel to run the generators to keep you warm. You also 
find a memory card labelled “cure”, but your cell phone battery is dead. First things first, you will need to 
stay safe as the zombies continue to hunt you in your current location. The industrial site is surrounded 
by a metal chain-link fence. You decide you will electrify the fence to keep the zombies from scaling it. 
But the output voltage from the generators is not high enough to really deter them. You would like to 
apply around 10 kV to the fence (AC or DC, at that voltage it doesn’t really matter). You find a transformer 
that you can use but it only has a turn ratio of 10. You find some diodes and capacitors and construct the 
circuit shown in Figure 3 with the intention of hooking Vout to the fence. 

hypothesize how you could adapt this circuit 
with additional capacitors and diodes to reach an output voltage of near 10 kV. Include your proposed 
circuit diagram and an explanation of why this will work.

Construct the circuit you designed

Generator 1 v₁(t) 240 V (Peak) 60 Hz + 1:10 G₁ 10 nF HH D1 +4 D₂ HH C2 10 nF Vout
Transcribed Image Text:Generator 1 v₁(t) 240 V (Peak) 60 Hz + 1:10 G₁ 10 nF HH D1 +4 D₂ HH C2 10 nF Vout
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