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Q3 a- Design an op-amp circuit that will produce an output equal to -(4V, + V2 + 0.1V3). b- Write an expression for the output when V, = 2 sin wt, V2 = +5 V dc, and V3 = -100 V dc.

Q3 a- Design an op-amp circuit that will produce an output equal to -(4V, + V2 + 0.1V3). b- Write an expression for the output when V, = 2 sin wt, V2 = +5 V dc, and V3 = -100 V dc.

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Q3 a- Design an op-amp circuit that will produce an output equal to -(4V1 + V2 + 0.1V3). b- Write an expression for the output when V, = 2 sin wt, V2 = +5 V dc, and V3 = -100 V dc. %3D Q4 Design an op-amp circuit using two inverting configurations to produce the output V, = -10v, + 5V½ + 0.5V3 - 20V4. Qs Draw the output voltage waveform for each circuit in Fig. 4.30 with respect to the input. Show voltage levels. A 月 +1 V +1 -I V Ver Vut +2 V V. -2 V (a) (b) Fig. 4.30. Q6 Determine the rate of change of the output voltage in response to the step input to the integrator in Fig. 4.31. C 5 V 0.022 uF Vn 0- 56 kN Fig. 4.31. 23
Transcribed Image Text:Q3 a- Design an op-amp circuit that will produce an output equal to -(4V1 + V2 + 0.1V3). b- Write an expression for the output when V, = 2 sin wt, V2 = +5 V dc, and V3 = -100 V dc. %3D Q4 Design an op-amp circuit using two inverting configurations to produce the output V, = -10v, + 5V½ + 0.5V3 - 20V4. Qs Draw the output voltage waveform for each circuit in Fig. 4.30 with respect to the input. Show voltage levels. A 月 +1 V +1 -I V Ver Vut +2 V V. -2 V (a) (b) Fig. 4.30. Q6 Determine the rate of change of the output voltage in response to the step input to the integrator in Fig. 4.31. C 5 V 0.022 uF Vn 0- 56 kN Fig. 4.31. 23
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