Exercise 2-7: Design an operational-amplifier circuit using the differential configuration to produce the output vo=0.5v1 - 2.0v2. Assume R4 100 k2. Check if the compensation resistance has its optimum value. [Answer: R₁ = 200 k2, R2 = 40 k2, R3 = 50 k2, Rc = 9.8 kQ, = Re R₁||R2 = 33.3 ks2 = R3||R4 (as required)] HOTA FEDECED12.

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Exercise 2-7:
Design an operational-amplifier circuit using the differential configuration to produce the
0.5v1-2.0v2. Assume R4 = 100 k2. Check if the compensation resistance
output vo
has its optimum value.
[Answer: R₁ = 200 k2, R2 = 40 k2, R3 = 50 ks, Rc = 9.8 kQ,
Re = R₁||R2 = 33.3 k2= R3||R4 (as required)]
HOTA FEDECED2
Transcribed Image Text:Exercise 2-7: Design an operational-amplifier circuit using the differential configuration to produce the 0.5v1-2.0v2. Assume R4 = 100 k2. Check if the compensation resistance output vo has its optimum value. [Answer: R₁ = 200 k2, R2 = 40 k2, R3 = 50 ks, Rc = 9.8 kQ, Re = R₁||R2 = 33.3 k2= R3||R4 (as required)] HOTA FEDECED2
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