Use an ideal op amp to design an inverting integrator with an input resistance of 20k2 and an integration time constant of Ims. What is the value of C, the gain magnitude and phase angle of this circuit at 25 rad/s. O C= 50nF, Gain= 20, phase =90 O C= 0.5nF, Gain= 40, phase =90 O C= 0.05UF, Gain= 40, phase =90 O C= 100F, Gain= 55, phase =90

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Use an ideal op amp to design an inverting integrator with an input resistance of 20KQ and an integration time constant of Ims. What is
the value of C, the gain magnitude and phase angle of this circuit at 25 rad/s.
O C= 501F, Gain= 20, phase =90
O C= 0.5nF, Gain= 40, phase =90
O C= 0.05UF, Gain= 40, phase =90
O C= 10NF, Gain= 55, phase =90
Transcribed Image Text:Use an ideal op amp to design an inverting integrator with an input resistance of 20KQ and an integration time constant of Ims. What is the value of C, the gain magnitude and phase angle of this circuit at 25 rad/s. O C= 501F, Gain= 20, phase =90 O C= 0.5nF, Gain= 40, phase =90 O C= 0.05UF, Gain= 40, phase =90 O C= 10NF, Gain= 55, phase =90
För ideal op amp operating with the following feedback network in the inverting configuration, what is the closed-loop gain results? R1
= 10 k2, R2 = 50 k2
R
3.
O 0.2 v
O- 5
O - 5 V
O 0.2
Transcribed Image Text:För ideal op amp operating with the following feedback network in the inverting configuration, what is the closed-loop gain results? R1 = 10 k2, R2 = 50 k2 R 3. O 0.2 v O- 5 O - 5 V O 0.2
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