Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Design an op amp circuit with inputs v1and v2 such that vo = 3v2 - 8v1. Please include the circuit you design and the procedure deriving the relationship between v1, v2 and vo in your report.
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- Required information The circuit shows a two-op-amp instrumentation amplifier. R4 ww R2 R3 + R1 If R3= 36 kN, and R4= (gain-1)*R3kQ, what must the relative values of R2 and Rjbe in order to implement a subtractor with output vo = gain(v2 – v1)? Assume gain = 4. R21 R1=arrow_forwardOp amp please solve it.arrow_forwardplease be careful about R3arrow_forward
- I want full soltuion to this question thank you. Attached question in imagearrow_forwardOAP 2 ( (a) Design a circuit which provides a gain of -5 V/V for an input voltage source vs. You have an op-amp powered at VDD = +5 V and Vss = -5 V. Design your circuit such that 1 µA is drawn from the input vs when Vs = 200 mV. Include a drawing of the circuit and label all resistors that you use with their respective values. (b) What is the op-amp output voltage when vs = 200 mV? OAP 3 (a) Design a circuit that provides a gain of +10 V/V for an input signal vs. Use 100 kn as the smaller/smallest resistor value in your design. Include a drawing of the circuit and label all resistors that you use with their respective values. (b) Assume the op-amp is powered at VDD = +15 V and Vss = -15 V. At what positive and negative values of vs will the output vo be +/-15 V? (c) What will happen if the values of vs go beyond the values from (b)?arrow_forwardThank you in advance for your answer.arrow_forward
- Assume that the ideal op amp in the circuit in the figure is operating in its linear region, Take that R₁ = 45 k and R₂ = 18 kn. Part A Calculate the power delivered to the R₂. Express your answer with the appropriate units. ANSWER: PR₂ Express your answer with the appropriate units. ANSWER: PR₂ Part C Find the ratio of the power found in Part A to that found in Part B. ANSWER: 320mV Part B Calculate the power delivered to the R₂ with the op amp removed from the circuit, that is, with the R₂ resistor connected in the series with the voltage source and the R₁ resistor. PA/PB = + Source: Loadarrow_forward2) Consider the following op-amp circuit, which contains one resistor (of resistance R), and one “schresisitor". S R Vin Vout A “schresisitor" is a device that obeys “Schresisitor's law," V = 1²S. where S is the "schresisitance." Derive an expression for Vout in terms of Vin, R, and S.arrow_forwardFor the circuit, assuming an ideal op amp, and given Vs = - 1.5 V, R1 = 1 K ohm, R2 = 15k ohm, and R3 = 5k ohm, answer the following question. (Annotate diagram to show branches and nodes.) (a) Find the currents in all the branches (b) Find the voltages at all nodes (c) Find the power dissipated in each resistor (a) Find the total power dissipated in all resistors (e) How much power is delivered by Vs? (f) Explain: where does the rest of the power come from?arrow_forward
- Summing Amplifier Design Two signal sources have internal voltage of V1 and V2. Design an amplifier for which the output voltage is VO=A1V1+A2V2. The gain to be A1=5, and A2=-2. Assumes the ideal op amps are available.arrow_forwardThe op amp used in the circuit given below is ideal. Find the output voltage Vo in terms of input voltage V in and resistors.arrow_forward1. Consider the ideal op-amp circuit below. Let Us = 0.1 V, R1 = R2 = R3 = R3 = 100 kN, and R4 = 98 kN, Solve for Vo. R1 RA R5 vo R2 Us R3arrow_forward
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