Given the circuit (inverted op amp) how do I find my input voltage?
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Given the circuit (inverted op amp) how do I find my input voltage?
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- Consider the active circuit with the schematic:a. Assuming it's an ideal op amp, derive the circuit’s transfer function as a function of frequency, H(jw). Make sure it in canonical form.b. We want a DC gain of 40dB. If the op amp has value of Rin = 10MΩ and Rout = 50Ω, choose appropriate values for R1 and R2. Explain why your selected values of R1 and R2 allow you to ignore Rin and Rout for the remainder of the problem. c. If L = 1H, sketch the straight-line approximation of the Bode plot for the circuit’s gain assuming the op amp can still be considered as ideal.d. The op amp you select turns out to be non-ideal, and it has a real pole at wC = 1krad/s. Write the updated transfer function for your circuit (using your values of R1, R2, and L = 1H). Make it in the canonical form.e. Sketch the straight-line approximation of the Bode plot for the circuit with your updated transfer function from D.Consider the active circuit with the schematic:a. Assuming it's an ideal op amp, derive the circuit’s transfer function as a function of frequency, H(jw). Make sure it in canonical form.b. We want a DC gain of 40dB. If the op amp has value of Rin = 10MΩ and Rout = 50Ω, choose appropriate values for R1 and R2. Explain why your selected values of R1 and R2 allow you to ignore Rin and Rout for the remainder of the problem.The open-loop gain A of real (nonideal) op-amps isvery large at low frequencies but decreases markedlyas frequency increases. As a result, the closed-loopgain of op-amp circuits can be strongly dependent on frequency. Determine the relationship between a finiteand frequency-dependent open-loop gain AV(OL)(ω)and the closed-loop gain AV(CL)(ω) of an invertingamplifier as a function of frequency. Plot AV(CL)versus ω. Notice that −RF/RS is the low-frequencyclosed-loop gain.
- Given circuit, assume op-amp is ideal. What is the input resistance of the circuit, RIN? What are the currents in the inputs of op-amp? i-=? i+=? What is the output resistance of the circuit, ROUT=? Find voltage VA and VB? What is the nodal equation (KCL) at node VB? Solve for VOUT=?For the op-amp circuit shown below, find the value of vO, where R1 = 19 Ω, R2 = 14 Ω, R3 = 18 Ω, R4 = 14 Ω, Rf = 11 Ω, VS1 = 15 V, and VS2 = 3 V.In the circuit below, assuming the ideal opamp, we ask a) determine the circuit gain (Avf = V2 / V1). b) Calculate the gain value when R1 = R3 = 10KΩ and R2 = 16kΩ answer a) Avf=1((R1+R3)/R2) b) Avf=2,25
- Consider the active circuit:a. Assuming it's an ideal op amp, derive the circuit’s transfer function as a function of frequency, H(jw) in canonical form.b. We want a DC gain of 40dB. If the op amp has value of Rin = 10MΩ and Rout = 50Ω, choose appropriate values for R1 and R2. Explain why your selected values of R1 and R2 allow you to ignore Rin and Rout for the remainder of the problem.A non-inverting op-amp circuit has the open loop gain of 136 and the resistances R1=3500 Ω and R2 = 3.8 kΩ . Calculate (a) The actual value of voltage gain (b) Considering the finite open loop gain, the ideal value of gain (c) Error, when ideal voltage gain is compared with actual voltage gain (d) The percentage error, when ideal voltage gain is compared with actual voltage gain. (a) The actual value of voltage gain Answer for part 1 (b) The ideal value of voltage gain Answer for part 2 (c) Error, when ideal voltage gain is compared with actual voltage gain. Answer for part 3 (d) The percentage error, when ideal voltage gain is compared with actual voltage gain.The inverting amplifier in the circuit shown has an input resistance of 500 kΩ, an output resistance of 5 kΩ, and an open-loop gain of 300,000. Assume that the amplifier is operating in its linear region. 1. Calculate the voltage gain (vo/vg) of the amplifier. 2. Calculate the value of vn in microvolts when vg=1 V. 3. Calculate the resistance seen by the signal source (vg). 4. Repeat (a)–(c) using the ideal model for the op amp.
- Using the components listed below, design an amplifier having a voltage gain of −10 ± 20 percent. The input impedance is required to be as large as possible (ideally, an open circuit). Remember to use practical resistance values. Cascade a non-inverting stage with an inverting stage.1) Standard 5%-tolerance resistors.2) Standard 1%-tolerance resistors. (Don’t use these if a 5%-tolerance resistor will do, because 1%-tolerance resistors are more expensive.)3) Ideal op-amps.4) Adjustable resistors (trimmers) having maximum values ranging from 100 Ω to 1 MΩ in a 1–2–5 sequence (i.e., 100Ω, 200Ω, 500Ω, 1 kΩ, etc.). Don’t use trimmers if fixed resistors will suffice.Consider the following op amp configuration.(a) Choose R2 such that the ideal voltage gain is Av = 40dB and draw the amplifier’stransfer characteristic.(b) Find the amplifier’s input and output resistances.(c) If the op amp’s internal gain is Ao = 120dB, what is the expected voltage gain ofthe entire network?Please show that gain = -(1-n)/(1+nA) , n = R1/(R1+R2) and compare to gain of ideal op amp. Calculate the input and output impedances, and lastly whats the point of the resistor R1//R2 on the non-inverting input? What would be the best value for this resistor? (pretending it wasn't given that the value is R1/R2).