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What makes an excellent Interconnect? : Empirical Audio
https://www.empiricalaudio.com/computer-audio/technical-papers/what-makes-an-excellent-interconnect.php#:~:text=The%20capacitance%20of%20in%20interconnect%20is%20a%20function,is%20also%20function%20of%20geometry%20and%20dielectric%20material.
What makes an excellent Interconnect? : Empirical Audio
https://www.empiricalaudio.com/computer-audio/technical-papers/what-makes-an-excellent-interconnect.php
Interconnect capacitance is also function of geometry and dielectric material. Capacitance is minimized by spacing the two conductors apart as much as possible and by avoiding parallelism. It is also minimized by using low dielectric-constant materials between the two conductors. How does Empirical Audio minimize interconnect capacitance?
Audio Interconnect Cables - LessLoss
https://www.lessloss.com/docs/high-end-audio-interconnect-cable.pdf
its capacitance C, is equal to f=1/2πr out C. And, influ-enced by its inductance L, is equal to f=R in /2πL. Sup-posing a typical cable capacitance value of C=100pF and r out =100 Ohm, then f, the bandwidth passed by the cable, is about 15 MHz. Therefore, any typical cable, according to this model, should pass an audio
Interconnect Inductance vs. Capacitance - High-End Audio ...
https://forum.audiogon.com/discussions/interconnect-inductance-vs-capacitance
For a twisted pair design, the capacitance and the inductance are a function of the distance between the conductors relative to their diameters and are somewhat inversely related. The closer the conductors the less inductance and the more capacitance. The further apart, the more inductance and the less capacitance.
The Naked Truth about Interconnect Cables - TNT-Audio
https://www.tnt-audio.com/clinica/intere.html
The Cable Capacitance is however crucial for interconnects. I hinted at that when I explained my "first order effects". The Capacitance to cause a -0.1db Roll-off at 20kHz with a 100 Ohm Source Impedance is about 15nF. If our source Impedance is however 1kOhm, a 1.5nF Capacitance will cause this roll-off.
What is Interconnect Capacitance? [FAQs] | ATL Technology
https://atltechnology.com/blog/interconnect-capacitance-faqs/
R1 is the radius of the conductor (1mm) So, our calculated capacitance is: (2 * π * 2 * 500mm) / ln (2mm / 1mm) ≈ 9064.72F. If this cable was attached to a connector or another wire, we would need to use a Laplace equation to calculate the capacitance of the entire interconnect solution.
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