RLoad. VRL. Figure 3.2 Thevenin equivalent circuit R1 R4 1kO 10kO R2 10kO RS 3.30 Rload 1.8kO V1 V2 IL • VL- R3 5.6kO R6 4.7kQ Figure 3.3
RLoad. VRL. Figure 3.2 Thevenin equivalent circuit R1 R4 1kO 10kO R2 10kO RS 3.30 Rload 1.8kO V1 V2 IL • VL- R3 5.6kO R6 4.7kQ Figure 3.3
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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Transcribed Image Text:RT
+
RLoad.
V RL.
Figure 3.2 Thevenin equivalent circuit
R1
R4
1kO
10kO
R2
10kO
R5
23.30
Rload
1.8kO
V1
V2
9v
.9V
IL
+ VL -
R3
$5.6kO
R6
4.7kO
Figure 3.3
A. Set up the circuit in Fig. 3.2, andmeasue thevoltage VRL. and the current IRL.(Vth=-3.494 Rth-7.429k
ohm)( RLoad=1.8kW)
B. Compare VRL and IRL to thosemeasuredin current IL=-379 uA and voltage across Rload VL=-681.489 V
Homework 1:
Set up the circuit givenin Figure 3.3 and find the Thevenin equivalent circuit (i.e. the equivalent circuit between
nodes A and B, with RLoad removed fromthe circuit) as seenby RLoadasin the steps desaibedbelow.
To get the equivalent circuit, followthese steps:
a. Remove the disabled RLoad
b. Measure VAB (open circuit voltage = Theveuin Voltage =VT).
c. Set all voltagesources to zero volts anduse the ohmmeterto measure the equivalentresistance betweennodes A
and B (This is Theyvenin Resistance =RT).
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