Learning Path
Question & Answer1
Understand Question2
Review Options3
Learn Explanation4
Explore TopicChoose the Best Answer
A
The op-amp has a very high gain due to its internal transistor configuration
B
The op-amp is malfunctioning and outputs random voltages
C
The op-amp is only designed for digital signals
D
The op-amp has a low input impedance
Understanding the Answer
Let's break down why this is correct
Answer
If an op‑amp’s internal open‑loop gain is very high, even a millivolt difference at its inputs can be amplified to a voltage that reaches the supply rails, so the output appears “very large. ” This usually happens when the amplifier is not in a closed‑loop configuration, the feedback network is broken or damaged, or the device is saturated because the supply voltage is too low or the input is outside its common‑mode range. In such a case the op‑amp’s output will swing to the nearest rail, giving the impression of a runaway voltage. For example, with a 10 V supply and an open‑loop gain of 100 000, a 1 mV input difference would theoretically produce a 100 V output, which the device clamps to the 10 V rail. Thus, the underlying cause is the op‑amp’s high open‑loop gain combined with a missing or faulty feedback path.
Detailed Explanation
An op-amp is built with transistors that create a very high voltage gain. Other options are incorrect because The idea that a random output means the op-amp is broken is a misconception; Some think op-amps are only for digital signals.
Key Concepts
Operational Amplifier Gain
Transistor Configuration
Input Impedance
Topic
Internal Components of Op-Amps
Difficulty
easy level question
Cognitive Level
understand
Practice Similar Questions
Test your understanding with related questions
1
Question 1What happens to the output of an operational amplifier (op-amp) when the input signal exceeds the power supply voltage, leading to output saturation?
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Question 2If an operational amplifier circuit consistently produces a lower output voltage than expected based on its specifications, what could be the underlying cause?
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Question 3In practical op-amp circuits, the behavior of the output voltage is primarily controlled by the feedback applied, leading to a predictable __________ behavior.
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Question 4In an operational amplifier, the output voltage is determined by the difference between the two input voltages multiplied by the ________ of the op-amp.
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Question 5If an operational amplifier (op-amp) produces a very large output voltage when given a small difference between its inputs, what could be the underlying cause of this behavior?
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Question 6What happens to the output of an operational amplifier (op-amp) when the input signal exceeds the power supply voltage, leading to output saturation?
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7
Question 7What happens to the output of an operational amplifier (op-amp) when the input signal exceeds the power supply voltage, leading to output saturation?
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Question 8If an operational amplifier circuit consistently produces a lower output voltage than expected based on its specifications, what could be the underlying cause?
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9
Question 9In practical op-amp circuits, the behavior of the output voltage is primarily controlled by the feedback applied, leading to a predictable __________ behavior.
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10
Question 10In an operational amplifier, the output voltage is determined by the difference between the two input voltages multiplied by the ________ of the op-amp.
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