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Design a differential amplifier with inputs
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Chapter 4 Solutions
EBK THE ANALYSIS AND DESIGN OF LINEAR C
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- 2. The variable resistor Ro in the circuit is adjusted until the source current i = 0. Assume the ideal op-amps are operating in their linear regions. What is the value of Ro? Ro 15ΚΩ ic 45ΚΩ +5V -5V 20k92 ww 32k92 +10V -10Varrow_forward4. Calculate the output voltage of each of the following op-amp circuit. X1 Hop thi -1.5V Y11V R3 1kQ VCC 15.0V VEE -15.0V U1 -741 VCC 15.0V VEE -15.0V R4 2kQ 741 U2 R1 22.210. R2 • 1 ΚΩ ww/li R5 ww 1kQ R6 1kQ VCC 15:0V VEE -15.0V R7 1k0 U3 741 VOUTarrow_forwardGreat but i have a few questions when i see such an op amp how can i know that there's a voltage there at that node? the 2nd question is when u first did nodal analysis why is it v1/3 +2 and not -2? that's all thank youarrow_forward
- Draw the equivalent integrator op amp circuit with the following parameters and solve for its Vo R = 5 kohms C = 10 nF Vi = sinwt = sin2pift f = 1 kohmarrow_forwardDraw the equivalent differentiator op amp circuit with the following parameters and solve for its Vo R = 5 kohms C = 10 nF Vi = sinwt = sin2pift f = 1 kohmarrow_forwardThe output voltage of an op amp is −4 V when the noninverting input is 1 mV. If the open-loop gain of the op amp is 2 × 10^6, what is the inverting input?arrow_forward
- In the circuit shown below what is the output voltage (Vout) if a silicon transistor Q and an ideal op-amp are used? Show solution on your answer sheet. +15 V 1kQ OVout 5 V -15 V O -0.7V O 0.7V O 15V O -15Varrow_forwardCalculate the output voltage v, for the given ideal OP-AMP circuit. 10k 2 9+15V 5kΩ 2V 6-15V (a) (b) 2 V 15 V 10 V (d) 6 Varrow_forwardIn the circuit, the op-amps are ideal and not saturated. Find the output voltage V0 when R=101 kilo ohmarrow_forward
- The op amp in the noninverting amplifier circuit in (Figure 1) has an input resistance of 440 kn, an output resistance of 5 k2, and an open-loop gain of 100,000. Assume that the op amp is operating in its linear region. Figure 8 ΚΩ ww m 160 ΚΩ 240 ΚΩ ww 35 V -35 V vΣ 30 ΚΩ 1 of 1arrow_forward2. Calculate the value of vo in the circuit at right. The op amps are ideal. R, 10 k2 R1. 4.7 k2 2.5 mA 10 k2 1 k2arrow_forwardCalculate the output voltage v, for the given ideal OP-AMP circuit. 10k N 9+15V 5k Ω 2V 6-15V (a) (b) (c) (d) 2 V 15 V 10 V 6 Varrow_forward
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