+1 vote
in Linear Integrated Circuits by (38.2k points)
Find the condition at which the output will not saturate?

(a) Vx > 10v ; Vy > 10v

(b) Vx < 10v ; Vy > 10v

(c) Vx < 10v ; Vy < 10v

(d) Vx > 10v ; Vy < 10v

This question was addressed to me by my college director while I was bunking the class.

Question is from Multiplier and Divider topic in section Operational Amplifier Applications of Linear Integrated Circuits

1 Answer

0 votes
by (6.5k points)

The correct answer is:

(c) Vx<10V;Vy<10VV_x < 10V; V_y < 10V

Explanation:

In an operational amplifier (op-amp) based multiplier or divider circuit, the output voltage depends on the product or division of the input voltages VxV_x and VyV_y, and the reference voltage (VrefV_{\text{ref}}). To prevent saturation of the output, the input voltages must be controlled so that the resulting output voltage stays within the permissible range defined by the op-amp's supply voltage.

  • Saturation Condition: Saturation occurs when the output voltage exceeds the maximum or minimum voltage that the op-amp can output, which is usually close to the supply voltage (VccV_{\text{cc}}).
  • Non-Saturation Condition: To prevent saturation, the output voltage needs to remain within the linear operating range of the op-amp. This is often ensured by keeping the input voltages within a certain limit, so that their product or quotient doesn’t drive the output beyond the op-amp's output swing.

In this case, the condition Vx<10VV_x < 10V and Vy<10VV_y < 10V ensures that the multiplication or division result of the input voltages will produce an output within the linear range of the op-amp, avoiding saturation.

Why the Other Options Are Incorrect:

  • (a) Vx>10V;Vy>10VV_x > 10V; V_y > 10V: This condition is more likely to cause the output to saturate, as both input voltages are large.
  • (b) Vx<10V;Vy>10VV_x < 10V; V_y > 10V: This might lead to saturation depending on the specific circuit design and reference voltage.
  • (d) Vx>10V;Vy<10VV_x > 10V; V_y < 10V: Similar to (a), this condition could cause the output to exceed the linear range of the op-amp and result in saturation.

Thus, (c) provides the safe condition where the output will not saturate, as both input voltages are kept low.

Related questions

We welcome you to Carrieradda QnA with open heart. Our small community of enthusiastic learners are very helpful and supportive. Here on this platform you can ask questions and receive answers from other members of the community. We also monitor posted questions and answers periodically to maintain the quality and integrity of the platform. Hope you will join our beautiful community
...