Figure (Q1) shows an ideal voltage amplifier with a gain of +2 V/V implemented with an Op Amp connected in the noninverting configuration and a resistance R connected between the output and the input. a) Using Miller's theorem, show that the input resistance is Rm = -R b) Using Norton's theorem to replace Vig, Rig, and Rin with a signal current source and an equivalent parallel resistance. Show that by selecting Rig = R, the equivalent parallel resistance becomes infinite and the current I, into the load impedance Z, becomes Vig /R +2 R Figure (Q1)
Figure (Q1) shows an ideal voltage amplifier with a gain of +2 V/V implemented with an Op Amp connected in the noninverting configuration and a resistance R connected between the output and the input. a) Using Miller's theorem, show that the input resistance is Rm = -R b) Using Norton's theorem to replace Vig, Rig, and Rin with a signal current source and an equivalent parallel resistance. Show that by selecting Rig = R, the equivalent parallel resistance becomes infinite and the current I, into the load impedance Z, becomes Vig /R +2 R Figure (Q1)
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:Figure (Q1) shows an ideal voltage amplifier with a gain of +2 V/V implemented with an Op
Amp connected in the noninverting configuration and a resistance R connected between the
output and the input.
a) Using Miller's theorem, show that the input resistance is Rn = -R
b) Using Norton's theorem to replace Vig, Rig and Rin with a signal current source and an
equivalent parallel resistance. Show that by selecting Rig = R, the equivalent parallel
resistance becomes infinite and the current I, into the load impedance Z, becomes
Vrig /R
Rig
+2
Vas
R
R
Figure (Q1)
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