Paul's comments are valid but there is SOOO much more to cable design that just the capacitance and inductance figures.
The nominal impedance of a cable goes up as one spaces the conductors further apart, which lowers the amount of long term and short term power available from the amp. On top of that, the greater the impedance mismatch, the poorer the transient response and greater amount of signal reflections created.
Other than that, Paul's comments about high frequency oscillation may very well be valid. This is why i suggested the use of a Zobel network with any cable that is very low in inductance and wide-bandwidth by design.
Other than that, i have used similiar cabling to the Anti-Cabling as configured in a twisted pair in the past. I recommended this configuration as being a great cable for the money invested on the net appr 10 years ago when i first logged onto the internet. This cable design was also listed in my modification notes for the "Classic" series of Klipsch speakers, which was posted on their website many years ago. Sean
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The nominal impedance of a cable goes up as one spaces the conductors further apart, which lowers the amount of long term and short term power available from the amp. On top of that, the greater the impedance mismatch, the poorer the transient response and greater amount of signal reflections created.
Other than that, Paul's comments about high frequency oscillation may very well be valid. This is why i suggested the use of a Zobel network with any cable that is very low in inductance and wide-bandwidth by design.
Other than that, i have used similiar cabling to the Anti-Cabling as configured in a twisted pair in the past. I recommended this configuration as being a great cable for the money invested on the net appr 10 years ago when i first logged onto the internet. This cable design was also listed in my modification notes for the "Classic" series of Klipsch speakers, which was posted on their website many years ago. Sean
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