for small excursions about the equilibrium point, 0 = 0. V(1) CHALLENGE: We now introduce a case study challenge to test your knowledge of this chapter's objectives. Although the physical system is different from a human leg, the problem demonstrates the same principles: linearization followed by transfer function evaluation. Given the nonlinear electrical network shown in Figure 2.53, find the transfer function relating the output nonlinear resistor voltage, V,(s), to the input source voltage, V(s). i(n) -0000 1H Nonlinear (0)=213(0) resistor SV FIGURE 2.53 Nonlinear electric circuit

Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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2.1
i(t)
1H
for small excursions about the equilibrium point, 0 = 0.
CHALLENGE: We now introduce a case study challenge to test your
knowledge of this chapter's objectives. Although the physical system
is different from a human leg, the problem demonstrates the same
principles: linearization followed by transfer function evaluation.
Given the nonlinear electrical network shown in Figure 2.53, find
the transfer function relating the output nonlinear resistor voltage, V,(s),
to the input source voltage, V(s).
Nonlinear
v1) = 2i7)
resistor
5 V
FIGURE 2.53 Nonlinear electric circuit
Transcribed Image Text:2.1 i(t) 1H for small excursions about the equilibrium point, 0 = 0. CHALLENGE: We now introduce a case study challenge to test your knowledge of this chapter's objectives. Although the physical system is different from a human leg, the problem demonstrates the same principles: linearization followed by transfer function evaluation. Given the nonlinear electrical network shown in Figure 2.53, find the transfer function relating the output nonlinear resistor voltage, V,(s), to the input source voltage, V(s). Nonlinear v1) = 2i7) resistor 5 V FIGURE 2.53 Nonlinear electric circuit
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