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  1. #1
    Forum Regular Tony_Montana's Avatar
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    Question Jneutron, please explain your comment from Audioholics.

    I was browsing Audioholic's cable forum, and I ran cross this post from you:

    http://www.audioholics.com/cgi-bin/i...=ST;f=4;t=1474

    You said in your post:"Coupla decades ago, Bell labs found that the wire inductance in conjunction with the insulation's frequency varying dielectric constant, caused a varying propagation speed through the audio band, making for distortion..they figured it out, and came up with equations to relate it all."

    Could you expand on your comment regarding this issue. I didn't know Dielectric constant (absorbtivity) varied with frequency.

    For example, Air is a dielectric which have dielectric constant of 1. If the dielectric constant will vary with frequency- then how can you explain white light which is a composite of a number of "different" frequencies all traveling at the same speed thru the air?

    Also how would variability of Dielectric Constant effect cable impedance (like Coax) over a wide range of frequency(s)?
    "Say Hello To My Little Friend."

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    Quote Originally Posted by Tony_Montana
    I was browsing Audioholic's cable forum, and I ran cross this post from you:

    http://www.audioholics.com/cgi-bin/i...=ST;f=4;t=1474

    You said in your post:"Coupla decades ago, Bell labs found that the wire inductance in conjunction with the insulation's frequency varying dielectric constant, caused a varying propagation speed through the audio band, making for distortion..they figured it out, and came up with equations to relate it all."

    Could you expand on your comment regarding this issue. I didn't know Dielectric constant (absorbtivity) varied with frequency.

    For example, Air is a dielectric which have dielectric constant of 1. If the dielectric constant will vary with frequency- then how can you explain white light which is a composite of a number of "different" frequencies all traveling at the same speed thru the air?

    Also how would variability of Dielectric Constant effect cable impedance (like Coax) over a wide range of frequency(s)?
    Hi Tony

    The dielectric constant of materials varies with frequency...not vacuum's.

    I couldn't find the book from which I got that quote. However, from Becker:[Electromagnetic fields and Interactions]age 260: "both damping and wave velocity will depend upon the frequency, producing a distortion of the signals (of speech, for example) being carried on the conductor."

    For zero distortion, (alpha)/omega = sqr(LC)

    alpha being the real component of the propagation constant:

    gamma=alpha minus j (square root of -1) times Beta.

    What it means, is given a real resistance, capacitance, and inductance of the wire pair, there is a sweet spot where no long line distortion occurs.

    Unfortunately, that is selected at one frequency (w=5000exp s-1). Dielectrics with frequency varying coefficients will cause the sweet spot to be different for different frequencies, actually eliminating the "sweet spot"

    If you peruse JR's site, he mentions the dielectric frequency dependence, and may even link to the belden site where it is stated..


    Dielectric constant directly affects capacitance...double one, other follows..so if the dielectric value changes with frequency, the characteristic impedance of the line changes...following Z=sqr(L/C).

    Cheers, John

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    Quote Originally Posted by jneutron
    Hi Tony

    The dielectric constant of materials varies with frequency...not vacuum's.

    I couldn't find the book from which I got that quote. However, from Becker:[Electromagnetic fields and Interactions]age 260: "both damping and wave velocity will depend upon the frequency, producing a distortion of the signals (of speech, for example) being carried on the conductor."

    For zero distortion, (alpha)/omega = sqr(LC)

    alpha being the real component of the propagation constant:

    gamma=alpha minus j (square root of -1) times Beta.

    What it means, is given a real resistance, capacitance, and inductance of the wire pair, there is a sweet spot where no long line distortion occurs.

    Unfortunately, that is selected at one frequency (w=5000exp s-1). Dielectrics with frequency varying coefficients will cause the sweet spot to be different for different frequencies, actually eliminating the "sweet spot"

    If you peruse JR's site, he mentions the dielectric frequency dependence, and may even link to the belden site where it is stated..


    Dielectric constant directly affects capacitance...double one, other follows..so if the dielectric value changes with frequency, the characteristic impedance of the line changes...following Z=sqr(L/C).

    Cheers, John
    How do you explain the phenomenon that when all telephone calls were transmitted over wire and through repeater amplifiers, prior to microwaves, satellites, fiber optics, a coast to coast telephone call would travel through thousands of miles of wire and if there were this distortion to any significant degree, the signal at the receiving end would have been completely unintelligable but it wasn't? What is the typical degree of distortion and how does that relate to the threshhold of hearing? Is this just another example of finding a theoretical problem and blowing it far out of proportion to anything applicable to audio systems?

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    Quote Originally Posted by skeptic
    How do you explain the phenomenon that when all telephone calls were transmitted over wire and through repeater amplifiers, prior to microwaves, satellites, fiber optics, a coast to coast telephone call would travel through thousands of miles of wire and if there were this distortion to any significant degree, the signal at the receiving end would have been completely unintelligable but it wasn't?
    It is exactly BECAUSE of that application that the research was done to understand the relationship between resistivity, capacitance per unit length, inductance per unit length, and how to combine the three to prevent velocity based distortion.. Before that research, long line transmission was not possible to do well. The example Becker gives has the signal decaying to 1/e at 22 kilometers. Quote:" For cases of minimal damping (R{much less than}wL), the transmission line is distortion free, as the wave velocity is independent of frequency".

    So, to answer what I think your question is... the research guys at Bell made it possible..

    Quote Originally Posted by skeptic
    What is the typical degree of distortion and how does that relate to the threshhold of hearing?
    I have no idea..but apparently the distortion was bad enough that the Bell Labs guys had to figure out how the wires were doing it, to enable long line voice fidelity.

    Quote Originally Posted by skeptic
    Is this just another example of finding a theoretical problem and blowing it far out of proportion to anything applicable to audio systems?
    If you choose to make it so, that is your perogative..

    I answered a question posed by Tony..if you choose to twist the entire thread around to make it appear that I am "blowing something far out of proportion", then perhaps you could show us exactly where I did so..

    In any case...it would appear you have a problem with Becker...not me...

    If you wish to e-mail him to tell him he is blowing things out of proportion, you may do so..

    Becker, Richard, 1887-1955

    Perhaps Dover publications can forward any e-mails to him...I personally prefer to wait at least another 50 years before I am able to talk to him face to face.

    Cheers, John

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    "Becker, Richard, 1887-1955"

    Damn, isn't it just like those Bell Labs guys to not be around when you need them to answer a straight question!

  6. #6
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    Quote Originally Posted by skeptic
    "Becker, Richard, 1887-1955"

    Damn, isn't it just like those Bell Labs guys to not be around when you need them to answer a straight question!
    I'm rollin on the ground...my sides are hurtin...

    For meters of wire, it's a simple thing to calculate the frequency dependence of the wave velocity..so it's really easy to figure how much distortion can happen..

    Worst possible case calculation for audio: dielectric ratio of 100 to 1 (which is waaaaay too high a ratio)

    Fastest audio signal: say, 95% SOL...(speed of light)

    Slowest: what, 5%? 10%??
    Time of arrival difference in an audio system? who knows, who cares...5% is 15 million meters per second, one microsecond for 15 meters. I don't think audio cares...

    Cheers, John

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    "one microsecond for 15 meters. I don't think audio cares..."

    What do you mean audio doesn't care? John Curl cares. He can measure and hear the difference between -120 and -135 db of harmonic distortion of the seventh harmonic of 5 khz. Jon Risch cares. He hears digitial jitter less than that. Especially when he forgets to drink decaf and has a cup of regular java instead.

    What kind of audiophile are you if you can't hear a difference of one microsecond? Mtrycrafts is in the back room right now setting up a DBT just to see how good you really are.

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    Quote Originally Posted by skeptic
    John Curl cares. He can measure and hear the difference between -120 and -135 db of harmonic distortion of the seventh harmonic of 5 khz.
    Yah...did seem that way...

    He actually didn't say that he could hear that far down, but that the measurements CORRELATED to what he believes to be the sound of various interconnects.

    But...He did approach the issue in a reasonably scientific way..

    He went to various lengths to make sure that it was actually the cables that were repeating, and not a weird non repeatable fashion. So, he did SEEM to eliminate the 1700 as the cause...his incorrect assumption was that the machine was perfect.

    Now, with at least 3 others repeating the tests on AP machines, he seems to have backed off the cables are non linear stance.

    But, that leaves a very open, IMO, important question...The 1700 is DESIGNED to not interact with the cables being tested, to a low level..and yet, at those very low levels being reported, it was. Yes, the equipment was being used below it's guaranteed specifications, but I'm not worried about that...I worry about the repeatability..

    There is some, as yet, unexplained interaction between the cable construction, and a machine designed not to interact..

    Can that interaction be larger when audio equipment not necessarily designed for lack of interaction(how can you, what equipment will be used?)is being connected?

    Of course, that interaction, if audible, should be measureable..I don't think anybody has seen that..

    Quote Originally Posted by skeptic
    Jon Risch cares. .
    He's a different story. He is a guru who HAS to be correct all the time..regardless of what he says..nuff said.

    Curl's tests?.....I'll talk of those..JR...doesn't warrant discussion..

    Cheers, John

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    John Curl's hearing is better than mine

    I can only hear things that are there. He on the other hand can hear thing that aren't!

  10. #10
    Forum Regular Tony_Montana's Avatar
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    Thanks Jneutron (and Skeptic) for comments regarding this issue.

    You said:"What it means, is given a real resistance, capacitance, and inductance of the wire pair, there is a sweet spot where no long line distortion occurs. Unfortunately, that is selected at one frequency (w=5000exp s-1)."

    Would velocity distortion be any way related to cable's resonance properties. For example in antennas, for every frequency, there is specific length of wire which will show resonance properties (at full, half or quater wave length).

    So is there any relation between wire resonance (capacitance and inductance are equilibrium) and frequency velocity distortion thru a wire?
    "Say Hello To My Little Friend."

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    Quote Originally Posted by skeptic
    "Becker, Richard, 1887-1955"

    Damn, isn't it just like those Bell Labs guys to not be around when you need them to answer a straight question!

    No, skep, that is why we have John Edwards and Sylvia Brown to contact them for answers
    mtrycrafts

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    Quote Originally Posted by jneutron
    I'm rollin on the ground...my sides are hurtin...

    For meters of wire, it's a simple thing to calculate the frequency dependence of the wave velocity..so it's really easy to figure how much distortion can happen..

    Worst possible case calculation for audio: dielectric ratio of 100 to 1 (which is waaaaay too high a ratio)

    Fastest audio signal: say, 95% SOL...(speed of light)

    Slowest: what, 5%? 10%??
    Time of arrival difference in an audio system? who knows, who cares...5% is 15 million meters per second, one microsecond for 15 meters. I don't think audio cares...

    Cheers, John
    Stephen H. Lampen of Belden has a book out, "Wire, Cable, and Fiber Optics for Video & Audio Engineers," McGraw Hill, 1997.

    Here are some DC:

    rubber 3-6
    EPDM 2.5-6
    PVC 3.5-5.5 Vp 45%-57%
    teflon 2.1 Vp 69%
    polye 2.3
    polyp 2.23 Vp 67%

    Time delay in cables, as some manufacturers prefer, is measured in nanoseconds/ft.

    Vp(Velocity of propagation) = 100/sqrt of DC

    Now it is easy to calculate propagation in these cables, close to 1ft/nsec.
    mtrycrafts

  13. #13
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    [QUOTE=skepticMtrycrafts is in the back room right now setting up a DBT just to see how good you really are.[/QUOTE]


    I am ready And pctower is here to make sure we follow Leventhal's tables, so, it will be a long night, very long
    mtrycrafts

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    Quote Originally Posted by jneutron
    But, that leaves a very open, IMO, important question...The 1700 is DESIGNED to not interact with the cables being tested, to a low level..and yet, at those very low levels being reported, it was. Yes, the equipment was being used below it's guaranteed specifications, but I'm not worried about that...I worry about the repeatability..

    There is some, as yet, unexplained interaction between the cable construction, and a machine designed not to interact..

    Can that interaction be larger when audio equipment not necessarily designed for lack of interaction(how can you, what equipment will be used?)is being connected?
    Cheers, John

    But John modified his 1700. So his modification is also suspect, or a good possible contributor to the problem.
    mtrycrafts

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    one more

    Quote Originally Posted by skeptic
    "one microsecond for 15 meters. I don't think audio cares...".

    That is closer to 50 +/- nanoseconds
    mtrycrafts

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    I've been trying to contact Jackie for two years now. Her voice mail still works but she never retruns my calls. I know she's there because her friends will see to it that she will be the last one to close the door. At least when she was at Bellcore and she wasn't in her office, I knew I could always find her at the mall with the best sales at that moment.

    Most of the regulars have VRIP'd or been FMP'd. I'll bet Murry Hill is a ghost town.

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    Wink

    Quote Originally Posted by mtrycraft

    I am ready And pctower is here to make sure we follow Leventhal's tables, so, it will be a long night, very long
    Well it's about time we finally got around to some real science around here.

  18. #18
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    Quote Originally Posted by pctower
    Well it's about time we finally got around to some real science around here.

    Yes, yes, good science takes time
    mtrycrafts

  19. #19
    Forum Regular FLZapped's Avatar
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    Quote Originally Posted by jneutron

    But, that leaves a very open, IMO, important question...The 1700 is DESIGNED to not interact with the cables being tested, to a low level..and yet, at those very low levels being reported, it was. Yes, the equipment was being used below it's guaranteed specifications, but I'm not worried about that...I worry about the repeatability..

    There is some, as yet, unexplained interaction between the cable construction, and a machine designed not to interact..

    Cheers, John
    Hi John,

    It may not so much be the cable, but the load. If I remember correctly, the artifacts went up with decreasing load resistance.

    -Bruce

  20. #20
    Forum Regular Chuck's Avatar
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    Quote Originally Posted by jneutron
    Bell Labs guys had to figure out how the wires were doing it, to enable long line voice fidelity.
    Hi John,

    You said something important in your first post (on Audioholics.com) that is worth keeping in mind, and is directly related to what you say in the quoted comment above. The operative words here are "long line," and 10-feet of wire isn't what Bell Labs was concerned with. As the wire-run gets shorter, the problems are diminished, and at some point they become non-issues, at least as far as audibility is concerned. Your earlier post on Audioholics.com clearly stated that the effects with 10-feet of wire were insignificant:


    Ten feet? for audio freq's, it's not a problem.
    Nuf said.

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    Quote Originally Posted by mtrycraft
    That is closer to 50 +/- nanoseconds
    15 meters is 45 feet.
    at SOL, that is about 45 nanoseconds..as you state..

    5% of speed of light is 20 times the delay, or 900 nano's, close to a microsecond. I was talking about the difference in time a 5% speed would give..sorry I wasn't clearer..

    Cheers, John

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    Quote Originally Posted by Tony_Montana
    Thanks Jneutron (and Skeptic) for comments regarding this issue.

    You said:"What it means, is given a real resistance, capacitance, and inductance of the wire pair, there is a sweet spot where no long line distortion occurs. Unfortunately, that is selected at one frequency (w=5000exp s-1)."

    Would velocity distortion be any way related to cable's resonance properties. For example in antennas, for every frequency, there is specific length of wire which will show resonance properties (at full, half or quater wave length).

    So is there any relation between wire resonance (capacitance and inductance are equilibrium) and frequency velocity distortion thru a wire?
    No. the velocity distortion is related to how each frequency propagates down the line.

    Specific lengths will resonate only by virtue of reflections at each end, like water in a bathtub.

    You are mixing terms..cap and induct at equilibrium is an interesting one.. In a transmission line, C and L form the basis for characteristic impedance and prop velocity..not resonance...an infinite transmission line does not resonate..

    Cheers, John

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    Quote Originally Posted by mtrycraft
    But John modified his 1700. So his modification is also suspect, or a good possible contributor to the problem.
    Absolutely. As is the geometric layout of the machine. Whatever the cause of the low level harmonics, he reported a CABLE specific, repeatable change..

    I'm not concerned about the levels, but the repeatablility..

    Cheers, john

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    Quote Originally Posted by FLZapped
    Hi John,

    It may not so much be the cable, but the load. If I remember correctly, the artifacts went up with decreasing load resistance.

    -Bruce
    I think everything is playing in.. I'm concerned with the repeatability vs cable.

    Cheers, John

  25. #25
    Forum Regular FLZapped's Avatar
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    Talking

    Quote Originally Posted by jneutron
    I think everything is playing in.. I'm concerned with the repeatability vs cable.

    Cheers, John

    Agreed, but it's always nice to know how your stuff behaves......or misbehaves.

    -Bruce

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