Difference between revisions of "Differential pair"

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* It allows connecting two entities without having to have a common [[ground]]
 
* It allows connecting two entities without having to have a common [[ground]]
  
Any noise that has been picked up in common on both conductors is removed when one is subtracted from the other; this reduction in noise allows use of a lower voltage to send a signal. Also, since the return path for the [[current]] of the signal in the first conductor is not ground, but the inverse current in the second conductor, this tends to cancel any electro-magnetic radiation from that current.
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Any noise that has been picked up in common on both conductors is removed when one is subtracted from the other; this reduction in noise allows use of a lower voltage to send a signal. Also, since the return path for the [[current]] of the signal in the first conductor is not ground, but the inverse current in the second conductor, this tends to cancel any electro-magnetic radiation from those currents.
  
 
==See also==
 
==See also==
  
* [[Single-ended signaling]]
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* [[Single-ended signalling]]
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[[Category: Electrical]]

Revision as of 04:10, 14 December 2018

A differential pair (or differential signalling) is a way of sending a signal: it consists of sending two 'copies' of a signal, one an inversion of the other, down a pair of conductors; a balanced pair, for best results. At the destination, the second is subtracted from the first.

This approach has a number of advantages:

  • It can use lower voltages to achieve a given signal-to-noise ratio
  • It is less susceptible to interference
  • It produces less interference
  • It allows connecting two entities without having to have a common ground

Any noise that has been picked up in common on both conductors is removed when one is subtracted from the other; this reduction in noise allows use of a lower voltage to send a signal. Also, since the return path for the current of the signal in the first conductor is not ground, but the inverse current in the second conductor, this tends to cancel any electro-magnetic radiation from those currents.

See also