For this problem, you may assume that the operational amplifier is ideal. For the circuit below,...
ANVc Vout Q8d Assume that the operational amplifier is ideal. The opamp has two power inputs +Vcc = +15V and -Vcc = -15V. Given: Vs = -4.0 Volts Ry = 56 ko (kilo Ohm) R2 = 270 ko (kilo Ohm) Determine the voltage Vout- Vout = Volts
Simulation: Find Vout in the following circuit. Verify your answer with LTspice. As always, show your work for credit. R2 4k R1 s 1k Vout Ideal op-amp -1V V1 1.5V
Design the below operational amplifier circuit having one output, Vout, and two inputs, V1 and V2. The output must be related to the inputs by Vout = 2 V1 - 9 V2 26 km 180 kn 180 kn Rik - R2 kn Determine the value of R1 and Rz. R2 = ko R2 =
10. The operational amplifier in the circuit shown below is ideal. The voltage of the ideal sinusoidal source is y(t) = 30cos(106t) V 10 nF How small can Co be before the steady- state output voltage no longer has a pure sinusoidal waveform? a) 100 Ω b) For the value of Co found in (a), write the steady-state expression for vo(t) ↓ 25Ω Co 2,0 100Ω
Problem # 3 For the summing opamp circuit, assume that the opamp is powered with +15V and-15V. The input voltages are VI and V2 and the output voltage is Vout. Rf 15 V U1 R1 R2 Vout 741 V2 (A -15 V 1. Find the relation between the output Vout and the inputs VI and V2 2. Assume that RI-2kS2, R2-3 ㏀ and Rf-6kS2, Vin is a sinewave with viinpp-2V, V2DC- IV, plot Vin() and Vout(0) 3. Assume that you...
2. Construct the non-inverting amplifier circuit below. Then, obtain input-output transfer function for R1=1K and R2=2.2K, E= 9V. Use a variable de voltage (5V de source and a variable 1k potentiometer) source as the input and measure the output voltage for different inputs. Draw the input-output transfer function from the measured input-output voltages. Proteus Table Vin Vout Measured Table Vin Vout Q2) Determine the voltage gain VO / Vin of the non-inverting amplifier. What is the output voltage range over...
8. (5-1) Calculate the ratio v2/vi. First assume that the operational amplifier is ideal, then redo the problem assuming the opamp gain is a 10. Use R1 6.9 kQ, R2 2.7kQ. Ideal opamp v2/vi - Finite gain v2/vi R1 R2 V. V. 2
Note: Show all your work to get partial credit. 1. Consider a non-inverting operational amplifier. Let us assume that the feedback resister Rr 10K. Find the input resister Rin to get the voltage gain of 11. (5 points) 2. Calculate the output voltage of the summing amplifier shown in Fig. 1. (10 points) R1 Rf R2 Vout R3 Fig. 1 Summing Amplifier
Problem 2 (10 points) In the amplifier shown in Fig. 2(a), assume Fig. 2(b) that I4 is ideal. Do not ignore the ro of the transistors for this problem, but you can assume that Ri is much smaller than any transistor o I1 and I2 ideal current sources. Also, assume in are (a) Find the small signal differential gain out/vdm of the Fig. 2(a) amplifier in terms of the appropriate small-signal parameters. Then express your answer in terms of appropriate...
The schematic circuit of a noninverting amplifier is shown in Fig.1aThe circuit specifications are: V1=0.1V Again=30dB R3=100kΩ R1=10kΩ(a) Determine the output voltage of the amplifier, assume the op-amp is ideal.(b) Determine the resistance of R2, assume the op-amp is ideal.(c) Does the value of R1 affect the output of the amplifier, if the op-amp is ideal? Justify your answer.(d) Does the value of R1 affect the output of the amplifier, if the op-amp is non-ideal and has only an input offset voltage shown in...