How much capacitance is permitted in IC cables?

[Fantastic]

For many of us cable capacitance should not pose any practical problems due to loss in HF response.

Lets look at a cable with 150 pF per m capacitance. That's high !
The loss of HF with a 2 meter coaxial cable ( 300pF) and an amp with 22K input impedance with a 20 K volume pot and a 100 ohm out impedance of the preamp or the source is as follows.

-0.1 dB at over 360 Khz ,
-0.5 dB at over 800 Khz ,
-1dB at 1.2 MHz

However for a tube amp with source resistance of 3Kohm ( like a single tube preamp ) and an input impedance of 1 Meg ohm and volume pot of 250K ohms , the response is as follows.

-0.1 dB at 23 khz ,
-0.5 dB at 52 Khz ,
- 1 dB at 77 Khz.

( All calculated values and cross checked with simulation )

HOWEVER , using different cables could sound very different even though they don't seem to have any significant effect at 20 Khz on steady state continuous signals! Dynamic performance is still not fully understood as you can see on the various cable comparison threads.It doesn't seem to be the capacitance which is the culprit. More to do with dielectric ( storage?) performance on dynamic signals.

So with solid state amps the possibility of cable capacitance causing a major problem appears lower than with a tube amp using high impedance pots.
We have not accounted for stray capacitance which could reach significant values.One reason why point to point wiring appears to sound better than pcb mounted components in tube circuits. The 47Lab chip amp with PP wiring also supposedly did sound very good. I have never seen anyone comparing it with a pcb based design which by themselves are quite good.

If anyone wants to plug in their own values of capacitance and loads I can give you the XLS file that I made. There is no calculation for 20 KHz exactly but I can add it if you want.

Some other interesting data.
Typical capacitance of RCA connectors .
The simplest chromed chassis mount type was 2.8 pF (MX) and the gold plated one with insulators for chassis mounting was 5.7 pF ( Jap) !

Chetan Cables single core shielded cable was 150 pF per meter. ( 5mm dia)

No name balanced cable had 150 pF/m to shield and 76 pF between the two signal cables.

A Srexact balanced cable ( from SP road Bangalore) was 95 pF /m from signal line to shield and 54 pF between signal cables.
Typically I find most balanced cables are around 120 pF/m between signal and shield. However the plastic and quality of the shield used varied widely and so would the sound I guess.

RCA plugs.
MX silver type 4.1pF
MX chromed case/gold connector end ( expensive ) 2.9 pF

So I guess IC cables better be picked after listening tests rather than selecting by looking at their specs.

 

[doors666]

A Srexact balanced cable ( from SP road Bangalore) ...

which shop can i get these cables from?

 

[Mano]

For many of us cable capacitance should not pose any practical problems due to loss in HF response.

Lets look at a cable with 150 pF per m capacitance. That's high !
The loss of HF with a 2 meter coaxial cable ( 300pF) and an amp with 22K input impedance with a 20 K volume pot and a 100 ohm out impedance of the preamp or the source is as follows.

-0.1 dB at over 360 Khz ,
-0.5 dB at over 800 Khz ,
-1dB at 1.2 MHz

However for a tube amp with source resistance of 3Kohm ( like a single tube preamp ) and an input impedance of 1 Meg ohm and volume pot of 250K ohms , the response is as follows.

-0.1 dB at 23 khz ,
-0.5 dB at 52 Khz ,
- 1 dB at 77 Khz.

( All calculated values and cross checked with simulation )

HOWEVER , using different cables could sound very different even though they don't seem to have any significant effect at 20 Khz on steady state continuous signals! Dynamic performance is still not fully understood as you can see on the various cable comparison threads.It doesn't seem to be the capacitance which is the culprit. More to do with dielectric ( storage?) performance on dynamic signals.

So with solid state amps the possibility of cable capacitance causing a major problem appears lower than with a tube amp using high impedance pots.
We have not accounted for stray capacitance which could reach significant values.One reason why point to point wiring appears to sound better than pcb mounted components in tube circuits. The 47Lab chip amp with PP wiring also supposedly did sound very good. I have never seen anyone comparing it with a pcb based design which by themselves are quite good.

If anyone wants to plug in their own values of capacitance and loads I can give you the XLS file that I made. There is no calculation for 20 KHz exactly but I can add it if you want.

Some other interesting data.
Typical capacitance of RCA connectors .
The simplest chromed chassis mount type was 2.8 pF (MX) and the gold plated one with insulators for chassis mounting was 5.7 pF ( Jap) !

Chetan Cables single core shielded cable was 150 pF per meter. ( 5mm dia)

No name balanced cable had 150 pF/m to shield and 76 pF between the two signal cables.

A Srexact balanced cable ( from SP road Bangalore) was 95 pF /m from signal line to shield and 54 pF between signal cables.
Typically I find most balanced cables are around 120 pF/m between signal and shield. However the plastic and quality of the shield used varied widely and so would the sound I guess.

RCA plugs.
MX silver type 4.1pF
MX chromed case/gold connector end ( expensive ) 2.9 pF

So I guess IC cables better be picked after listening tests rather than selecting by looking at their specs.

I agree with your post from past experiences. It is the "total capacitance" between two interconnected components and also the "last link" between the power amp and the preceding component that "contributes" to the overall tonal quality.

My 2 cents. I wish and do not want to be drawn into any "confrontation" please (humbly).

This is from my personal experience, others may differ. I also feel one should try out different cables and settle for the one which he or she likes to live (hear) and is happy with.

Cheers

 

[Fantastic]

which shop can i get these cables from?

Not sure of the name of the shop. When you enter SP road from the Om Electronics end , this shop is on the 'right side' . It is a small shop with two displays on either side (perpendicular to the road) in which you will see all kinds of pro audio plugs etc. You don't 'enter' the shop as it has the display cabinet right up front. It does have a very steep step to get to the display cabinet. Very strange! Maybe just 100 feet from Om Electronics. Om was closed the last time I went there a few months ago! The front is probably just about 10 feet across.

 

[doors666]

Not sure of the name of the shop. When you enter SP road from the Om Electronics end , this shop is on the 'right side' . It is a small shop with two displays on either side (perpendicular to the road) in which you will see all kinds of pro audio plugs etc. You don't 'enter' the shop as it has the display cabinet right up front. It does have a very steep step to get to the display cabinet. Very strange! Maybe just 100 feet from Om Electronics. Om was closed the last time I went there a few months ago! The front is probably just about 10 feet across.

thanx, i think i know which shop you are talking about, it has a lot of pro-audio stuff like ahuja etc also.

 

[Fantastic]

thanx, i think i know which shop you are talking about, it has a lot of pro-audio stuff like ahuja etc also.

Yes it has .

 

[Fantastic]

Another cable from Bangalore.
This is about 3.5 mm in diameter.
Signal to shield is 140 pF/m and between the two signal wires it is 82 pF/m. Rather high.
The cable is called KRYSTALS Professional low noise Superflex microphone cable.
Bought at one of the cable shops opposite Amar .
I find more balanced line cables in the market than single core cable.

RG59 is not very flexible. But maybe it sounds good. Someone should try it. I will pick up some from the market. Better to buy a known brand like Commscope or other well known cable TV cables.
RG58 is thinner and possibly slightly more flexible. I have some Times Fiber cable meant for use at 1Ghz. It's too stiff.

 

[jls001]

RG59 is not very flexible. But maybe it sounds good

The ones I've tried sound bad when used as analog audio cables

But they're good as S/PDIF cables, since they're 75 Ohms.

They're usually stiff because of the thick insulation for the core and also insulation for the shield. The best RG-59 are of course the ones rated for IF frequency applications (70-140 MHz) with double braided shielding.

 

[asliarun]

A basic question. If one uses a much shorter IC cable, say, 2ft long instead of 6ft long as you used (2meters), would that make a difference? Meaning, a discernible or hearable difference?

 

[Fantastic]

The capacitance load will be much less ( 1/3 rd). How much it affects your system depends on the various impedances in your system. Like in a high impedance system like a valve preamp it might make some difference. But I think the frequency response wouldn't really matter so much. Maybe the reduction of dielectric in the signal path might have a greater effect. You need to try it out.

 

[doors666]

if you have an opamp output stage in your preamp, and a resistor at the output, it can handle a lot more capacitance than the levels we are talking about.

 

[Fantastic]

if you have an opamp output stage in your preamp, and a resistor at the output, it can handle a lot more capacitance than the levels we are talking about.

A resistor between the preamp output and power amp input will act as the source resistance. It should be low depending on the following stage. The resistor you mention on the output of an op-amp is to decouple the output stage from large capacitive loads which could make the circuit unstable. t isn't about using large capacitive loads, it's about op-amp stability.

Capacitance on a load should be kept as small as possible to prevent HF roll off. But as we have seen it often doesn't affect the 20KHz response very much. There is much more to the 'sound' than just HF roll off.