Assume that the op amp is ideal and operating in its linear region. Select the combination...
19 of 21 Problem 18 Assume that the op amp is ideal and operating in its linear region. Select the combination of resistor Icc values that gives the cascaded op-amps an overall gain of -2500 R. A. Ri 15 k2, R2 300 , Rs = 1 k2 , R - 50 k2 B. Ri 300 , R-15 k, Rs 1 k2, Ra = 50 k2 0 , R15 k, R I k2, R=49 ks2 C. Ri R 600 Q, R2...
5.8 a) Design an inverting amplifier with a gain of 4. Use an ideal op amp, a resistor in the feedback path, and 12 V power supplies. b) Using your design from part (a), determine the range of input voltages that will keep the op amp in its linear operating region. c) Suppose you wish to amplify a 2 V signal, using your design from part (a) with a variable feedback resistor. What is the largest value of feedback resistance...
Ch 5 Analysis of Ideal Op Amp Circuits 1 of 11> Part B Ideal op amp circuits with a voltage source: part 2 Learning Goal: For the circuit shown (Figure 1), determine the range (i.e., maximum and minimum values) of V so that the op amp operates in the linear region. Assume that R1-5 ? . R2-1 kN. R3-60 ? , and V,-15 V To analyze circuits that contain op amps using the ideal op amp assumptions. Express your answer...
Vo Q1. Assume that Op-Amp as shown above is ideal. Given that RI is 0.23 Ohm, R2 is 1.78 Ohm, R3 is 1.61 Ohm, R4 is 2.225 Ohm. Calculate Vo, V2 & 13. V2 (Volts) Submit Answer Tries 0/5 13 (Amps) Submit Answer Tries o/s Vo (Volts) Submit Answer Tries 0/5 R1 Vo Q2. Assume that Op amp shown is ideal. Given that R1 is 19 Ohm, R2 is 82 Ohm, R3 is 9.5 Ohm, R4 is 205 Ohm. Calculate...
Exercise 10: Find the gain of the amplifier circuit shown below. Assume op-amp is ideal and RI=R2-R3-3 R and R4-R. V. R
(33 points) Assuming an ideal op-amp and given the resistor values, calculate both the voltage gain and the input resistance. Ri-5000, R2-12000, R3-14000, R-6000, R5-14000, R6-700Ω Rs R2 Vin+ R3 Vout Rs R4 The voltage gain The input resistance Rin - help (numbers) Ω help (numbers)
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...
Problem 4 : The op amp is ideal, if the closed - loop gain of the following circuit is G=v 0 /v s = - 5 0 , calculate the value of the unknown resistor R x . Figure 4 Problem 4: The op amp is ideal, if the closed-loop gain of the following circuit is G-Vo/vis 50, calculate e value of the unknown resistor Rx 5 ΚΩ 50 KS2 2 ΚΩ Figure 4
For the circuit shown in Fig. 4.3, the op-amp is ideal and is operating in its linear region. (a) Determine the transfer function H (s) = Vo(s)/Vi(s). (b) Sketch and clearly label the Bode Magnitude-Phase plot of H(jo) (Your provided two graph papers. Use the first for the magnitude plot and the second for the phase plot). (c) What filter is represented by H(s)? Explain. 400 k 2 210 S2 50 nF 160 k92 내 mto 105 2 50 nF...
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