Thevenin Equivalent Circuit

  

· To verify Thevenin’s Theorem

· To verify the maximum power transfer

Fall 2020

ECET 200

Electronic Measurement Techniques Lab

Assessment 6

(Thevenin Equivalent Circuit)

Student Name	Student ID

Feedback/Comments:

Grade: /100

1. Objectives:

· To verify Thevenin’s Theorem

· To verify the maximum power transfer

1. Components Used:

10 kΩ

10 kΩ

Part	Values
R1	5.6 KΩ
R2			10 kΩ
R3
R4
RL	1 kΩ
VS	10 V

Figure 1

2. Experiment

1. Build the circuit in Figure 1 using TinkerCad, by interconnecting the appropriate resistors to a power supply (Voltage Source). Insert your name as an annotation. (25 points)

Take a screenshot of your circuit and paste it here

2. Measure the current and voltage for RL (10 points)

			Measured
	VRL (V)
	IRL (A)

Table 1

3. RTH Measurement: (7.5 points)

Remove the source and replace it by a short circuit. Measure the RTH from the terminal a-b (without RL). record your measurement

Measured

RTH

Table 2

4. VTH Measurement: (7.5 points)

1. Keep the source, measure the voltage across the terminal a-b (without RL). Record the value below:

Measured

VTH

Table 3

2. Reconstruct the circuit in Tinkercad with only VTH, RTH, and RL as shown in Figure 2. Insert your name as an annotation. (25 points)

Take a screenshot of your circuit and paste it here

3. measure the current and voltage for RL (10 points)

Measured

VRL (V)

IRL (A)

Table 4

3. Analysis: (15 points)

1.

Compare the results in tables 2 and 4. What are your observations?

2. In order to achieve Maximum power transfer to the Load which should be the value for RL?

3. What is the maximum power value at this RL?

4. Bonus:

Describe two practical applications of the maximum power transfer theorem: (5 points)

Copyright © American College of the Middle East. 2020

Copyright © American College of the Middle East. 2020