Yes, in theory. But in practice it depends on the frequencies.
Even if interference is insignificant, looping the wires around a metal core (which braiding does) creates a different impedance and can degrade the signal.
It’s the wrapping of it around a ferrite core that does it. Surprisingly little can make a difference at certain clock rates. If you take a cat5 cable running 1G and loop it a dozen times in a 6" circle and put a metal screwdriver perpendicular to the loop in its center, you will see a spike in bit errors. Weaving one wire with another isn’t going to be as strong of an effect, and it’s fiendishly complicated in terms of an e/m problem, but it could easily be significant.
Would the twisted pairs prevent cross talk between two separate cables like it does individual wires?
Yes, in theory. But in practice it depends on the frequencies.
Even if interference is insignificant, looping the wires around a metal core (which braiding does) creates a different impedance and can degrade the signal.
Get out! From the inductance? How long it a length of wire does it take for that to become an issue?
It’s the wrapping of it around a ferrite core that does it. Surprisingly little can make a difference at certain clock rates. If you take a cat5 cable running 1G and loop it a dozen times in a 6" circle and put a metal screwdriver perpendicular to the loop in its center, you will see a spike in bit errors. Weaving one wire with another isn’t going to be as strong of an effect, and it’s fiendishly complicated in terms of an e/m problem, but it could easily be significant.