Positive feedback

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Positive feedback is a process that occurs in a feedback loop in which the effects of a small disturbance on a system include an increase in the magnitude of the perturbation.

In other words: A produces more of B, which in turn produces more of A.

In contrast, a system in which the results of a change act to reduce or counteract it has negative feedback.

Mathematically, positive feedback is defined as a positive loop gain around a closed loop of cause and effect.

That is, positive feedback is in phase with the input, in the sense that it adds to make the input larger.

Positive feedback tends to cause system instability. When the loop gain is positive and above 1, there will typically be exponential growth, increasing oscillations or divergences from equilibrium.

System parameters will typically accelerate towards extreme values, which may damage or destroy the system, or may end with the system latched into a new stable state.

Positive feedback may be controlled by signals in the system being filtered, damped, or limited, or it can be cancelled or reduced by adding negative feedback.

Positive feedback is used in digital electronics to force voltages away from intermediate voltages into '0' and '1' states.

On the other hand, thermal runaway is a positive feedback that can destroy semiconductor junctions.

Positive feedback in chemical reactions can increase the rate of reactions, and in some cases can lead to explosions.

Positive feedback in mechanical design causes tipping-point, or 'over-centre', mechanisms to snap into position, for example in switches and locking pliers.

Out of control positive feedback can cause failure, for example bridge collapse.

Positive feedback in economic systems can cause boom-then-bust cycles.

A familiar example of positive feedback is the loud squealing or howling sound produced by audio feedback in public address systems: the microphone picks up sound from its own loudspeakers, amplifies it, and sends it through the speakers again.

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