B. Finding the equivalent circuits 1. Now, use the circuit analysis techniques you learned in class to calculate the open-circuit voltage at the terminals in Figure 1. Remember that when finding Thévenin/Norton equivalent of a source circuit, you remove the load resistance! Paste a photo of your work, or type it below: 2. Short the terminals (Vout+ and Vout-) in Figure 1. Calculate the short-circuit current for the circuit. Paste a photo of your work, or type it below: 3. Calculate the Thévenin resistance using the open-circuit voltage and short-circuit current you calculated in parts B1 and B2. Rth= 4. Calculate the Thévenin resistance using the zeroing method as seen from the terminals Vout+ and Vout-. Rth= 5. Do your results in B3 and B4 agree? 6. Using these values, draw the Thévenin and Norton equivalent circuits of the schematic shown in Figure 1. If your laptop doesn't have pen capability, draw the circuits on paper and paste pictures of your drawings into the table below, making sure they are clear and legible: A. Analyzing the circuit For this part of the lab, you will analyze the circuit shown below: V1 5 R1 15 R3 220 R2 470 R5 100 R4 Figure 1: Lab 2 circuit R6 100 -Vout+ -Vout-

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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B. Finding the equivalent circuits
1. Now, use the circuit analysis techniques you learned in class to calculate the
open-circuit voltage at the terminals in Figure 1. Remember that when finding
Thévenin/Norton equivalent of a source circuit, you remove the load resistance!
Paste a photo of your work, or type it below:
2. Short the terminals (Vout+ and Vout-) in Figure 1. Calculate the short-circuit
current for the circuit. Paste a photo of your work, or type it below:
3. Calculate the Thévenin resistance using the open-circuit voltage and short-circuit
current you calculated in parts B1 and B2.
Rth=
4. Calculate the Thévenin resistance using the zeroing method as seen from the
terminals Vout+ and Vout-.
Rth=
5. Do your results in B3 and B4 agree?
6. Using these values, draw the Thévenin and Norton equivalent circuits of the
schematic shown in Figure 1. If your laptop doesn't have pen capability, draw the
circuits on paper and paste pictures of your drawings into the table below,
making sure they are clear and legible:
Transcribed Image Text:B. Finding the equivalent circuits 1. Now, use the circuit analysis techniques you learned in class to calculate the open-circuit voltage at the terminals in Figure 1. Remember that when finding Thévenin/Norton equivalent of a source circuit, you remove the load resistance! Paste a photo of your work, or type it below: 2. Short the terminals (Vout+ and Vout-) in Figure 1. Calculate the short-circuit current for the circuit. Paste a photo of your work, or type it below: 3. Calculate the Thévenin resistance using the open-circuit voltage and short-circuit current you calculated in parts B1 and B2. Rth= 4. Calculate the Thévenin resistance using the zeroing method as seen from the terminals Vout+ and Vout-. Rth= 5. Do your results in B3 and B4 agree? 6. Using these values, draw the Thévenin and Norton equivalent circuits of the schematic shown in Figure 1. If your laptop doesn't have pen capability, draw the circuits on paper and paste pictures of your drawings into the table below, making sure they are clear and legible:
A. Analyzing the circuit
For this part of the lab, you will analyze the circuit shown below:
V1
5
R1
15
R3
220
R2
470
R5
100
R4
Figure 1: Lab 2 circuit
R6
100
-Vout+
-Vout-
Transcribed Image Text:A. Analyzing the circuit For this part of the lab, you will analyze the circuit shown below: V1 5 R1 15 R3 220 R2 470 R5 100 R4 Figure 1: Lab 2 circuit R6 100 -Vout+ -Vout-
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