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Problem 3 (Op Amps) 15 1520 = 50 points R Assume the op-amp is ideal and...
Problem 7 (CLO 3, 4, 11 - Ideal Op-Amps, Design): We will now design an Op-Amp...
Problem 7 (CLO 3, 4, 11 - Ideal Op-Amps, Design): We will now design an Op-Amp circuit to perform the function where v1 - input voltage 1, input voltage 2, = input voltage 3, Vo = output voltage. It may be helpful to consult your recitation 6 (week 7) results as well as Table 4-3 for this problem. 7.a: Select an Op-Amp configuration for your design. Sketch the Op-Amp configuration with symbolic resistors (Rf, Ri, R2, etc) indicated. Do not...
Problem 3 Derive an expression that relates vo amps) to vy in the following op-amp circuit....
Problem 3 Derive an expression that relates vo amps) to vy in the following op-amp circuit. (Assume ideal op- Vi o o Vo R2 R1 R1
Problem 2: In the circuit shown assume the Op-Amp is ideal. A) Find vo as a...
Problem 2: In the circuit shown assume the Op-Amp is ideal. A) Find vo as a function of vi and vs. B) Next assume the Op-Amp is ideal, except its low frequency gain is Ao= 100 V/V. Now find vo as a function of vi and v2. C) The Op-Amp has a terminal frequency of fi 10° Hz, find the -3 dB (corner) frequency of the output signal w2 10K
Need part 2. 3. In following circuit, (1) Assume the Op Amp is ideal, Ri= 10...
Need part 2.
3. In following circuit, (1) Assume the Op Amp is ideal, Ri= 10 k 2, R2 = 20 k 2, R;= 10 k 2 and R = 30 k12, find the voltage gain Vo/Vi and input resistance R. (8 pts) (2) Assume the Op Amp is not ideal, and the open-loop gain is As, R = 10 k 2, R2 = 20 k 2, R;= 10 ks2 and Ri= 30 ks2, find the voltage gain Vo/Vi and...
ECE 202- Experiment 3-PreLab Homework NTROD TION TOTHE INTEG IRO T OP AMP VOLTAGE COMPARATOR 1....
ECE 202- Experiment 3-PreLab Homework NTROD TION TOTHE INTEG IRO T OP AMP VOLTAGE COMPARATOR 1. Op Amp functions in two different modes, depending on the way it is connected in the circuit a) If there is no return loop, t is used to compare values of two input terminals (or as Explain how vo changes depending on the values of vi and v Vo . what are max and/or min values for v and vo? 2·The circuit shown below...
Problem 2 In the circuit shown, assume that the op-amp is not ideal but has a...
Problem 2 In the circuit shown, assume that the op-amp is not ideal but has a finite gain Aod. Determine the expression of the current I as a function of Vi and Aod. 2.
Op-Amp Circuit Stability Although op-amps behave as single-pole amplifiers which are "uncondition...
Op-Amp Circuit Stability Although op-amps behave as single-pole amplifiers which are "unconditionally stable," it's still possible to make unstable amplifiers if you don't know what you're doing. The most famous example of this is the voltage differentiator 1. Consider the following circuit: a. Find the expression for this amplifier's ideal gain Aco (s), assuming the op-amp is ideal (a(s) - o. Hint: It's just an inverting amplifier with z and z2 R (5pts) b. Suppose the gain-setting components have values...
For the following circuit, assuming the op-amp is ideal, find the current through the load (IL)...
For the following circuit, assuming the op-amp is ideal, find the current through the load (IL) if V1=3.4V, V2=2V, R1=1.9K9, R2=7.1K2, R3=1 KO, R4=39 KO and RL=1.9K RL R4 R1 w V1 R2 R3 V2 Answer: OmA Consider the same circuit as in with Question 1, but with the following new component values: V1=3.4V, V2=6V, R1=1.9K2, R2=7.1K2, R3=1 K., R4=39 K22 and RL=1.9K2. What is the input impedance as seen by the source V1?
VO Problem 1 (25 Pts) Consider the OP amp circuit shown below with R = 100k12...
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
Problem 2 110 points) For an ideal op-amp model and a typical 741 op-amp chip, the...
Problem 2 110 points) For an ideal op-amp model and a typical 741 op-amp chip, the following partial table is provided. 1. Furnish the two (2) missing responses in the "Typical Value" column from the attached UM741 data sheet. Note: Use the "Typ" column on the data sheet for your responses. 2. Furnish the four (4) missing responses in the "Ideal Value” column from what you remember in class about the ideal op amp model Ideal Value Typical Value Parameter...
Problem 7 (CLO 3, 4, 11 - Ideal Op-Amps, Design): We will now design an Op-Amp circuit to perform the function where v1 - input voltage 1, input voltage 2, = input voltage 3, Vo = output voltage. It may be helpful to consult your recitation 6 (week 7) results as well as Table 4-3 for this problem. 7.a: Select an Op-Amp configuration for your design. Sketch the Op-Amp configuration with symbolic resistors (Rf, Ri, R2, etc) indicated. Do not...
Problem 3 Derive an expression that relates vo amps) to vy in the following op-amp circuit. (Assume ideal op- Vi o o Vo R2 R1 R1
Problem 2: In the circuit shown assume the Op-Amp is ideal. A) Find vo as a function of vi and vs. B) Next assume the Op-Amp is ideal, except its low frequency gain is Ao= 100 V/V. Now find vo as a function of vi and v2. C) The Op-Amp has a terminal frequency of fi 10° Hz, find the -3 dB (corner) frequency of the output signal w2 10K
Need part 2.
3. In following circuit, (1) Assume the Op Amp is ideal, Ri= 10 k 2, R2 = 20 k 2, R;= 10 k 2 and R = 30 k12, find the voltage gain Vo/Vi and input resistance R. (8 pts) (2) Assume the Op Amp is not ideal, and the open-loop gain is As, R = 10 k 2, R2 = 20 k 2, R;= 10 ks2 and Ri= 30 ks2, find the voltage gain Vo/Vi and...
ECE 202- Experiment 3-PreLab Homework NTROD TION TOTHE INTEG IRO T OP AMP VOLTAGE COMPARATOR 1. Op Amp functions in two different modes, depending on the way it is connected in the circuit a) If there is no return loop, t is used to compare values of two input terminals (or as Explain how vo changes depending on the values of vi and v Vo . what are max and/or min values for v and vo? 2·The circuit shown below...
Problem 2 In the circuit shown, assume that the op-amp is not ideal but has a finite gain Aod. Determine the expression of the current I as a function of Vi and Aod. 2.
Op-Amp Circuit Stability Although op-amps behave as single-pole amplifiers which are "unconditionally stable," it's still possible to make unstable amplifiers if you don't know what you're doing. The most famous example of this is the voltage differentiator 1. Consider the following circuit: a. Find the expression for this amplifier's ideal gain Aco (s), assuming the op-amp is ideal (a(s) - o. Hint: It's just an inverting amplifier with z and z2 R (5pts) b. Suppose the gain-setting components have values...
For the following circuit, assuming the op-amp is ideal, find the current through the load (IL) if V1=3.4V, V2=2V, R1=1.9K9, R2=7.1K2, R3=1 KO, R4=39 KO and RL=1.9K RL R4 R1 w V1 R2 R3 V2 Answer: OmA Consider the same circuit as in with Question 1, but with the following new component values: V1=3.4V, V2=6V, R1=1.9K2, R2=7.1K2, R3=1 K., R4=39 K22 and RL=1.9K2. What is the input impedance as seen by the source V1?
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
Problem 2 110 points) For an ideal op-amp model and a typical 741 op-amp chip, the following partial table is provided. 1. Furnish the two (2) missing responses in the "Typical Value" column from the attached UM741 data sheet. Note: Use the "Typ" column on the data sheet for your responses. 2. Furnish the four (4) missing responses in the "Ideal Value” column from what you remember in class about the ideal op amp model Ideal Value Typical Value Parameter...
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