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3) Consider the op-amp circuit shown below: V, V. ZF Z, a) Determine the input-output relationship...
For the circuit shown below, determine the output voltage vo. Assume ideal op amp behavior. S V to
Assume the op-amp below is used as a comparator circuit and that
the op-amp is powered by a bipolar
+/- 15 V power supply. If the reference voltage Vref = -9 V and the
input voltage is VI = 12 V,
determine the output voltage, VO, of the op-amp. Assume the
open-loop gain, A, is very large and
consider saturation effects. Include units in your answer.
VCC Vi V. + + Vref EE
Problem 1 (25 Pts) Consider the OP amp circuit shown below with R = 100kN and C = 1(10)-5 F: for the circuit in terms of frequency f(Hz). VO Part b) 5 pts Compute the gain of at as a function of frequency f(Hz). Vi Part c) 10 pts Compute the corresponding gains at 100, 1000, 10000 Hz. Part a) 10 pts Find the complex transfer function in R 3R 5R Via V.
Problem 1 (25 Pts) Consider the OP amp circuit shown below with R = 100kN and C = 1(10)-5 F: Part a) 10 pts Find the complex transfer function for the circuit in terms of frequency f (Hz). Vi Part b) 5 pts Compute the gain of at as a function of frequency f(Hz). Part c) 10 pts Compute the corresponding gains at 100, 1000, 10000 Hz. Vo R 3R 5R с Vů V.
Problem 1 (25 Pts) Consider the OP amp circuit shown below with R = 100kN and C = 1(10)-SP: Part a) 10 pts Find the complex transfer function for the circuit in terms of frequency f(Hz). Part b) 5 pts Compute the gain ofat as a function of frequency f(Hz). Parte) 10 pts Compute the corresponding gains at 100, 1000, 10000 Hz. R 3R 5R Vim -VO
Q2. For the op-amp circuit as shown below, given that RS = 49.5 k, RL = 12 k 2, R1 = 10 kO, R2 = 9 ㏀, R3 = 7.5 ko, R4 = 5 ㏀R5 = 2.2 k2 Ry vo Ry Ri Rs (a) Determine the voltage gain G1-vo1/vs: Submit Answer Tries o/5 (b) Determine the voltage gain G2-vo/vs: Submit Answer Tries o/5 Q3. For the op-amp circuit shown below, find the value of VO, where R1 = 20 Ω,...
Problem 1 (25 Pts) Consider the OP amp circuit shown below with R = 100kN and C = 1(10): Parta) 10 pts Find the complex transfer function for the circuit in terms of frequency f(Hz). Part b) 5 pts Compute the gain of at as a function of frequency f(Hz). Parte) 10 pts Compute the corresponding gains at 100, 1000, 10000 Hz. R 3R 5R Vå w V
VO Problem 1 (25 Pts) Consider the OP amp circuit shown below with R = 100k12 and C = 1(10)-5 F: Part a) 10 pts Find the complex transfer function for the circuit in terms of frequency f (Hz). Vi Part b) 5 pts Compute the gain of ko at as a function of frequency f (Hz). Part c) 10 pts Compute the corresponding gains at 100, 1000, 10000 Hz. Vi R BR 5R с Vi - Ve
Experimental methodology
Problem 1 (25 Pts) Consider the OP amp circuit shown below with R = 100kN and C = 1(10)-SP: Part a) 10 pts Find the complex transfer functions for the circuit in terms of frequency f (Hz). Part b) 5 pts Compute the gain of sat as a function of frequency f (Hz). Part e) 10 pts Compute the corresponding gains at 100, 1000, 10000 Hz. R 3R 5R protein Vi - Vo
Q16. Design a two-stage Op-Amp circuit as shown below to make the output voltage is v,-CV1-c2v2, where C1 = 7.5 and C2 = 7.5, given that Rf,-73 kQ, and Rn° 18 ka. Rf, Ri 0 %, 0 R, Rs2 V Vi 0 O Vo v2 P2 Stage Stage 2 16a. Find the values of R and R2 R1: 4.056 Submit Answer Incorrect. Tries 1/3 Previous Tries (k2) R2 1 (k2) 16b. Find the value of Rs2 (k2) Submit Answer Incorrect....