Q2/B)- Show the connection of three combination op-amp stages ( Parallel and series connection) using an LM348 IC to provide outputs that are 110, 400, and 2601 times larger than the input. Use a feedback resistor of Rf = 500 kN in all stages, while can use only (R= 50 kN for first stage), (R= 25 kN for second stage), and (R= 10 kN for third stage)
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- Q2/B)- Show the connection of three combination op-amp stages ( Parallel and series connection) using an LM348 IC to provide outputs that are 110, 400, and 2601 times larger than the input. Use a feedback resistor of Rf = 500 k? in all stages, while can use only (R= 50 k? for first stage), (R= 25 k? for second stage), and (R= 10 k? for third stageFigure Q2(a) shows an amplifier system with the given input voltagewaveform Vin and the corresponding output voltage waveform Vout. If a practical op-amp is used in the amplifier system in Figure Q2(a),calculate the closed-loop gain, ACL given that the open-loop gain, AOL =3000. You can use the value of resistances found in Q2(a)(i).A non-inverting op-amp circuit has the open loop gain of 104 and the resistances R1 = 2k Ω and R2 = 50 k Ω. Calculate (a) The actual value of voltage gain (b) Considering the finite open loop gain, the ideal value of gain, and (c) The percentage error, when ideal voltage gain is compared with actual voltage gain.
- Please answer this two part question A) It is known that when an Op-amp is operated using the negative feedbackconfiguration, the output impedance reduces. Derive an expression that proves this. B) It is known that when an Op-amp is operated using the positive feedbackconfiguration, the output impedance increase. Derive an expression that proves this.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.Activity 2:You are asked to examine the performance of three op-amp circuits. 2-A) Categorize the circuits in terms of using a feedback or not, and the specific type of thefeedback connection (positive or negative, shunt or series, voltage or current).2-B) Explain the principle of operation of Circuit A. Explain limitations of this circuit in termsof practical applications. What is the technical name describing this circuit?2-C) Explain the principle of operation of Circuit B. What is the advantage of this circuitcompared to Circuit A? What is the technical name describing this circuit?2-D) Explain the principle of operation of Circuit C. What is the advantage of this circuitcompared to Circuits A and B? What is the technical name describing this circuit?2-E) Draw the block diagram of Circuit C and define the forward path gain A and feedbackpath gain β. Derive the overall circuit gain relating input to output.2-F) Build all circuits in MultisimTM using one ‘uA741CP‘op-amp IC fed by…
- 1. A non-inverting op-amp circuit has the open loop gain of 105 and the resistances R1 = 1k Ω and R2 = 39k Ω . Calculate (a) The actual value of voltage gain, (b) Considering the finite open loop gain, the ideal value of gain, and (c) The percentage error, when ideal voltage gain is compared with actual voltage gain.A certain op-amp has three internal amplifier stages with midrange gains of 30 dB, 40 dB, and 20 dB. Each stage also has a critical frequency associated with it as follows: fc1 = 600 Hz, fc2 = 50 kHz, and fc3 = 200 kHz. (a) What is the midrange open-loop gain of the op-amp, expressed in dB? (b) What is the total phase shift through the amplifier, including inversion, when the signal frequency is 10 kHz?Find the values of the gain, natural frequency and damping coefficient of the open-loop system to two places after the decimal point. open loop system image added. many thanks
- I am asking for a solution branchs C & D Activity # 2You have to study the effect of the type of feedback on building op amp applications using 741 op-amp.A) Discuss the circuits in Figure 2 using the 741 op-amps and the biasing voltage of 10V. Assume R1 and R2 are equal. Build both circuits virtual and the lab and compare the out results having an input sinusoidal of 8V amplitude and 1kHz frequency.B) Explain the principle of operation of Figure 2. Explain limitations of both circuit in terms of practical applications. What is the technical name describing this circuit? What are the reference voltages in both circuitsC) Explain the principle of operation of the op-amp in the first stage of Figure 1. What is the advantage of this circuit compared to Circuits in Figure 2? What is the technical name describing this circuit?D) Explain the principle of operation of the op-amp in the last stage of Figure 1. What is the advantage of this circuit compared to Circuits in (A) and (C)? What…The input-output relationship for the inverting op amp circuit is given ideally by: Vo = (-R f / Ri)Vi . The closed loop gain of the amplifier circuit is calculated as G = Vo/Vi. Use these equations to calculate the the expected output voltage and gain of the opamp circuit givenIn the op amp model above, open-loop gain is 106 and Vcc=12V. Suppose the inverting-input voltage is vn=90μV and the output voltage vo=5V. What is the noninverting input voltage vp (in micro-volts)?