R₁ = 1.0 kQ w R3 = 3.3 k E R₂ = 5.1 KQ W Two-terminal "source" network Figure 2.0a: Original Circuit "Load" E R₁ = 1.0 kQ R₂ = 5.1 KQ w R3 = 3.3 k w R₁ = 1.0 kQ R3 = 3.3 kQ w R2 = 5.1 ΚΩ Figure 2.0b: In-circuit measurements for VTh and RTh Isc ↓ Voc VTh RTh Figure 2.0c: Thevenin Equivalent Circuit RL
R₁ = 1.0 kQ w R3 = 3.3 k E R₂ = 5.1 KQ W Two-terminal "source" network Figure 2.0a: Original Circuit "Load" E R₁ = 1.0 kQ R₂ = 5.1 KQ w R3 = 3.3 k w R₁ = 1.0 kQ R3 = 3.3 kQ w R2 = 5.1 ΚΩ Figure 2.0b: In-circuit measurements for VTh and RTh Isc ↓ Voc VTh RTh Figure 2.0c: Thevenin Equivalent Circuit RL
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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(i) For the circuit shown in Figures 2.0a and 2.0b, consider the input D.C. source voltage, E = 10 V. (1) Determine the Thevenin’s equivalent circuit of the two-terminal source network in Figure 2.0a by finding the Thevenin voltage, VTh and the Thevenin resistor, RTh as shown in Figure 2.0c; (2) referring to circuits in Figure 2.0b, use either nodal-voltage or mesh-current technique to find the
respective open-circuit voltage, VOC and short-circuit current, ISC; and (3) use the Thevenin equivalent circuit model in Figure 2.0c to show that VTh = VOC, and RTh = VOC/ISC. Show all your analysis below, and record your results in Table 2.0.
Transcribed Image Text:R₁ = 1.0 kQ
w
R3 = 3.3 k
E
R₂ = 5.1 KQ
W
Two-terminal "source" network
Figure 2.0a: Original Circuit
"Load"
E
R₁ = 1.0 kQ
R₂ = 5.1 KQ
w
R3 = 3.3 k
w
R₁ = 1.0 kQ
R3 = 3.3 kQ
w
R2 = 5.1 ΚΩ
Figure 2.0b: In-circuit
measurements for VTh and RTh
Isc
↓
Voc
VTh
RTh
Figure 2.0c: Thevenin
Equivalent Circuit
RL
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