1. Consider the integrator circuit in Figure QI. The input signal, V, to the circuit is a 100 Hz square wave with a peak voltage of + 1 V. Determine each of the following: (a) Sketch and label the values of the output signal, V.. (b) At what frequencies will the circuit stops acting as an integrator. (c) Sketch the output signal, V, when it is not acting as a integrator and what is it acting as now? 0.0047 uF 500 ka RI +15 V 2V 10 ka -15 V 100 Hz R10 ka Figure QI
1. Consider the integrator circuit in Figure QI. The input signal, V, to the circuit is a 100 Hz square wave with a peak voltage of + 1 V. Determine each of the following: (a) Sketch and label the values of the output signal, V.. (b) At what frequencies will the circuit stops acting as an integrator. (c) Sketch the output signal, V, when it is not acting as a integrator and what is it acting as now? 0.0047 uF 500 ka RI +15 V 2V 10 ka -15 V 100 Hz R10 ka Figure QI
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Please answer as soon as possible Electronic circuit analysis and Design
Transcribed Image Text:Consider the integrator circuit in Figure Q1. The input signal, V, to the circuit is a 100
1.
Hz square wave with a peak voltage of + 1 V. Determine each of the following:
(a) Sketch and label the values of the output signal, V..
(b) At what frequencies will the circuit stops acting as an integrator.
(c) Sketch the output signal, V, when it is not acting as a integrator and what is it
acting as now?
0.0047 µF
RE
500 k2
RI
+15 V
2Vpp
10 kn
V.
-15 V
100 Hz
Ra10 k2
Figure QI
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