Combining Negative and Positive Feedback in an OpAmp: What Are the Effects?

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Combining negative and positive feedback in an op-amp can lead to complex behavior, particularly if both configurations are purely resistive. The positive feedback can partially cancel the negative feedback, potentially resulting in a lightly damped system that exhibits oscillations in response to step inputs. Without capacitors, the system's frequency response can be tailored by making the positive feedback frequency-dependent. In an ideal op-amp scenario, this combination effectively reduces the amount of negative feedback. Understanding these dynamics is crucial for designing stable op-amp circuits.
khotsofalang
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What happens if you combine both negative and positive feedback in one opAmp?

assuming you only have unity gain in the negative configuration and no capacitors? I reckon
adding capacitors would add some oscillatory behavior but would that be the case if both configurations are made only of resistors? why?
 
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khotsofalang said:
What happens if you combine both negative and positive feedback in one opAmp?

assuming you only have unity gain in the negative configuration and no capacitors? I reckon
adding capacitors would add some oscillatory behavior but would that be the case if both configurations are made only of resistors? why?
The positive feedback will cancel out some of the negative feedback. Usually you would make the positive feedback frequency-dependent to tailor the frequency response of the overall system. If the positive feedback comes close to cancelling the negative feedback at some frequency, then the system will be lightly damped and show an oscillatory response to a step input.

If the op-amp were ideal, then both purely resistive networks would be equivalent to just less negative feedback.
 
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