Construct the circuit in Figure 1 without the capacitors. Use R1 = 1kohm. Adjust the value of R2 such that the Vout is 25% less than Vin. Table 1 Table 2 Question 1 Question 2 O Vi Computed R2 R1 R2 1000/3 ohms Vo Input a 5Vpp square wave to your circuit. Sweep the frequency of the input from 100 Hz to 10kHz Frequency (Hz) Vout (Vpp) 100 500 1000 5000 10000 What did you notice when changing the frequency? How does the frequency affect the output of your circuit? Try changing the value of R2. What happens when you increase R2? When you decrease?

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Question
Construct the circuit in Figure 1 without the capacitors. Use R1 = 1kohm.
Adjust the value of R2 such that the Vout is 25% less than Vin.
Table 1
Table 2
Question 1
Question 2
Vi
Computed R2
R1
R2
1000/3 ohms
Vo
Input a 5Vpp square wave to your circuit. Sweep the frequency of the input from
100 Hz to 10kHz
Frequency (Hz) Vout (Vpp)
100
500
1000
5000
10000
What did you notice when changing the frequency? How does the frequency
affect the output of your circuit?
Try changing the value of R2. What happens when you increase R2? When you
decrease?
Transcribed Image Text:Construct the circuit in Figure 1 without the capacitors. Use R1 = 1kohm. Adjust the value of R2 such that the Vout is 25% less than Vin. Table 1 Table 2 Question 1 Question 2 Vi Computed R2 R1 R2 1000/3 ohms Vo Input a 5Vpp square wave to your circuit. Sweep the frequency of the input from 100 Hz to 10kHz Frequency (Hz) Vout (Vpp) 100 500 1000 5000 10000 What did you notice when changing the frequency? How does the frequency affect the output of your circuit? Try changing the value of R2. What happens when you increase R2? When you decrease?
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