Need part 2. 3. In following circuit, (1) Assume the Op Amp is ideal, Ri= 10...
Part A only please Part A - Analysis of an op-amp circuit using a realistic circuit model Learning Goal For an ideal op-amp, we assume that the current flowing into the More realistically, calculatei in the circuit given when R1 9.6 k, R2 -4.2 kQ R3-95 ko. V,-2920 μν , and Voe-15 V . Assume that the op-amp can be modeled with an input resistance of Ri-6.00 M, an output resistance of Ro- 9.5 kS2, and an open-loop gain of...
Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 K2, R2=8 K12, R3=3.8 KS2, R4=6 KI2, R5=15 KS2, R6=3.8 KN, RL=9.8 K12, V1=1V, 12=0.5 mA and V3=2.2 V. } R6 R1 w R5 w + Vo + } RL 12 R2 V1 R3 R4 + +1 V3 Using the above circuit, but consider the following component values: R1= 2 KN R2=8 K2, R3=4.1 K12, R4=6 KI2, R5=17.0 K12, R6=15 KI, RL=10 KI, V1=1V, 12=0.5mA...
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
Assuming an ideal op-amp find the 3dB frequency of the circuit, if R1=2.3 K12, R2=13.1 KS2, R3=20 KS2, and C=5 nF. HA с R2 R1 Viljw) Vo R3 IH = Consider the above circuit with the component values: R1=2.3 KS2, R2=13.1 K12, R3=20 KS2 and C=5 nF. Find the DC gain of the circuit. Consider the above circuit with the component values: R1=13.1 K12, R2= 795.77 12, R3=20 K2, and C=100 nF. Find the angle of the transfer function in...
100 k22 RE R1 vo-w 20 ΚΩ ER vo + İPUCU: -Avi The Op-Amp used in the circuit in the figure is not ideal (i.e. for an internal resistance (Ri)): = V/V) resistors (R1, RF and Ri). Take a) First, regain the gain expression of the circuit in (Av the open loop gain A of the Op-Amp. b) Values given in the figure and R = 1 ks2, 10 ks, 100 ke ve 1 Calculate the gain separately for the...
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
Assuming an ideal op-amp find the 3dB frequency of the circuit, if R1=2.4 KS2, R2=13.4 K2, R3=20 KS2, and C=5 nF. HH C R2 R1 + Vi(jw) Vo R3 IH Answer: rad/s Consider the above circuit with the component values: R1=2.4 K12, R2=13.4 KS, R3=20 KN and C=5 nF. Find the DC gain of the circuit. Answer: Consider the above circuit with the component values: R1=13.4 KS, R2= 795.77 12, R3=20 K12, and C=100 nF. Find the angle of the...
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
In the given op amp circuit, R1 = 3 R and R2 = 4 R. Determine the voltage gain vo/vs. Assume that R = 10 kΩ. The voltage gain vo/vs is In the given op amp circuit, R1 = 3 R and R2 = 4 R. Determine the voltage gain vol Vs. Assume that R = 10 k.. R R WBA R w R w + 0 + TO The voltage gain Vo/Vs is
Problem 3 (Op Amps) 15 1520 = 50 points R Assume the op-amp is ideal and a load is modeled as a current source IL. This circuit R allows us to set the voltage across the load as well as monitor its current. Vin, Vo, and R are R R known quantities, but the load characteristics of VL and II are unknown. (a) What is Vi as a function of vin, Vo, and V Vin R? (b) What is Ii...