3 Phase Current Flow

[Sahib]

I was thinking research more along the lines of what I was talking about.

I think development more towards fiber optic cable data transfer.

 

[mivey]

I think development more towards fiber optic cable data transfer.

OK. Whatever. But think back to the change in the charge distribution.

If the charge at a certain location is dependent on a wave to pass by to get updated information on how to re-align, then for circuits with fast re-alignment characteristics the wave speed, and speed of subsequent information-updating waves, becomes a significant portion of the time it takes the circuit charge to reach equilibrium.

 

[Sahib]

If the charge at a certain location is dependent on a wave to pass by to get updated information on how to re-align, then for circuits with fast re-alignment characteristics the wave speed, and speed of subsequent information-updating waves, becomes a significant portion of the time it takes the circuit charge to reach equilibrium.

Take a computer with superconductivity as an extreme case. It would processes information at much faster rate than an ordinary computer. How charges relocation, equilibrium etc., relate in it ?

 

[Besoeker]

Take a computer with superconductivity as an extreme case. It would processes information at much faster rate than an ordinary computer.

Most, perhaps all, semiconductors I've come across are not rated to operate below -40C.

 

[Sahib]

Most, perhaps all, semiconductors I've come across are not rated to operate below -40C.

Nor any PVC insulated cable.

 

[mivey]

Take a computer with superconductivity as an extreme case. It would processes information at much faster rate than an ordinary computer. How charges relocation, equilibrium etc., relate in it ?

Forget the superconductor and just consider that the faster the circuit can settle the charge for each information wave the more the wave speed becomes a significant portion of the settling time.