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What is the capacitance C value? O2nF O 5 nF O 10 nF O 12 nF Question 6 What is the frequency of the integrator? Choose the closest value. O 2.4 kHz O 3.2 kHz O 5.6 kHz 8.5 kHz

What is the capacitance C value? O2nF O 5 nF O 10 nF O 12 nF Question 6 What is the frequency of the integrator? Choose the closest value. O 2.4 kHz O 3.2 kHz O 5.6 kHz 8.5 kHz

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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What is the capacitance C value? O2nF O 5 nF O 10 nF O 12nF Question 6 What is the frequency of the integrator? Choose the closest value. O2.4 kHz 3.2 kHz 5.6 kHz O 8.5 kHz
Transcribed Image Text:What is the capacitance C value? O2nF O 5 nF O 10 nF O 12nF Question 6 What is the frequency of the integrator? Choose the closest value. O2.4 kHz 3.2 kHz 5.6 kHz O 8.5 kHz
Given the ideal op amp in the inverting Miller integrator illustrated in Fig. 3a, with the voltage, resistance as indicated below. At input voltage source vi(t), sinusoid pulse is provided with amplitude of 200mV (V₂) and frequency (f = 1/T) of 1kHz. An example sinusoidal waveform is illustrated in Fig. 3b. Peak voltage amplitude at the output is 600mV (Va). Answer Questions 5 and 6. vy(t) Figure 3a Va A R 0 "1 OV + VC + |||| V₂ AN Figure 3b vi(t): Va=200mV, T = 1ms, f = 1kHz Vo(t): Va= 600mV R=5kn 1
Transcribed Image Text:Given the ideal op amp in the inverting Miller integrator illustrated in Fig. 3a, with the voltage, resistance as indicated below. At input voltage source vi(t), sinusoid pulse is provided with amplitude of 200mV (V₂) and frequency (f = 1/T) of 1kHz. An example sinusoidal waveform is illustrated in Fig. 3b. Peak voltage amplitude at the output is 600mV (Va). Answer Questions 5 and 6. vy(t) Figure 3a Va A R 0 "1 OV + VC + |||| V₂ AN Figure 3b vi(t): Va=200mV, T = 1ms, f = 1kHz Vo(t): Va= 600mV R=5kn 1
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