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New webpage on loudspeaker cables
Hi,
I've just put up a new webpage that provides some measurements on the properties of a variety of loudspeaker cables. The page is at http://www.audiomisc.co.uk/HFN/Cables3/TakeTheLead.html It is an expanded version of the article published in 'Hi Fi News' a few months ago. Slainte, Jim -- Please use the address on the audiomisc page if you wish to email me. Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Armstrong Audio http://www.audiomisc.co.uk/Armstrong/armstrong.html Audio Misc http://www.audiomisc.co.uk/index.html |
New webpage on loudspeaker cables
On Fri, 07 Aug 2009 09:10:40 +0100, Jim Lesurf
wrote: Hi, I've just put up a new webpage that provides some measurements on the properties of a variety of loudspeaker cables. The page is at http://www.audiomisc.co.uk/HFN/Cables3/TakeTheLead.html It is an expanded version of the article published in 'Hi Fi News' a few months ago. Slainte, Jim No conclusions section there, but maybe as follows? 1. If you open circuit the cable at the loudspeaker end, it is better if the cable is somewhat lossy, as this will prevent the quarter wave Mod Z dropping to too low (potentially damaging) a value. 2. Provided you have a speaker on the far end, none of the cables result in a particularly problematic load at RF. The minimum impedance variations tend to come from the cables with lower characteristic impedance (closest conductor spacing). 3. The Isolda behaves very differently to the rest, and provided it is used as recommended, presents the most consistent and friendly load of any. I could do with some more info on the Isolda cable - what the inductor is all about and how come the impedance drops so low without it. d |
New webpage on loudspeaker cables
On 2009-08-07, Don Pearce wrote:
On Fri, 07 Aug 2009 09:10:40 +0100, Jim Lesurf wrote: Hi, I've just put up a new webpage that provides some measurements on the properties of a variety of loudspeaker cables. The page is at http://www.audiomisc.co.uk/HFN/Cables3/TakeTheLead.html It is an expanded version of the article published in 'Hi Fi News' a few months ago. No conclusions section there, but maybe as follows? 1. If you open circuit the cable at the loudspeaker end, it is better if the cable is somewhat lossy, as this will prevent the quarter wave Mod Z dropping to too low (potentially damaging) a value. Alternatively, perhaps, that a well-designed amplifier will have about 2 uH of good quality inductance in series with its output to avoid such a case becoming damaging? -- John Phillips |
New webpage on loudspeaker cables
In article 4a7be630.269829187@localhost, Don Pearce
wrote: On Fri, 07 Aug 2009 09:10:40 +0100, Jim Lesurf wrote: Hi, I've just put up a new webpage that provides some measurements on the properties of a variety of loudspeaker cables. The page is at http://www.audiomisc.co.uk/HFN/Cables3/TakeTheLead.html It is an expanded version of the article published in 'Hi Fi News' a few months ago. Slainte, Jim No conclusions section there, but maybe as follows? There are a couple of 'follow on' articles which I wrote a while ago but are currently unpublished. At present I'm deciding what to do with them. Put them directly onto the web, or see if a magazine wants them first. When they appear the 'conclusions' may be a bit clearer. 1. If you open circuit the cable at the loudspeaker end, it is better if the cable is somewhat lossy, as this will prevent the quarter wave Mod Z dropping to too low (potentially damaging) a value. In general, cable losses will reduce the amplitude in the presented impdance changes with frequency in the RF region. The snag being that if too large, they could also upset performance in the audio region. IIUC one aspect of DNM's argument is that his cables do include RF loss. (My interpretation of what he says is this is due to internal impedance as the cable uses solid core wire. Thus introducing a loss at RF.) 2. Provided you have a speaker on the far end, none of the cables result in a particularly problematic load at RF. The minimum impedance variations tend to come from the cables with lower characteristic impedance (closest conductor spacing). Yes, although I'd qualify that as below... 3. The Isolda behaves very differently to the rest, and provided it is used as recommended, presents the most consistent and friendly load of any. I could do with some more info on the Isolda cable - what the inductor is all about and how come the impedance drops so low without it. The inductor (and LS end load) are to deal with the loading at RF. If you look, without these the dips go *very* low. That might upset poor amplifier designs which don't have unconditional stability, or, say, whose distortion behaviour could be affected. You'd need to check with Max, but my understanding is that the networks are included as standard with lengths of their cable. Although if you know your amp isn't fussed by a severe RF dip or resonances then I'd say you could dispense with them. FWIW I like the technical performance of the Isolda. But I'd find it a PITA to use as you have to take care laying it out, etc. However if you have very long, essentially straight, cable runs, it should do the job well. Apart from the above, I've continued to use the Maplin 'monster cable' for my own systems. But the runs are only a couple of metres. Slainte, Jim -- Please use the address on the audiomisc page if you wish to email me. Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Armstrong Audio http://www.audiomisc.co.uk/Armstrong/armstrong.html Audio Misc http://www.audiomisc.co.uk/index.html |
New webpage on loudspeaker cables
On Fri, 07 Aug 2009 10:40:08 +0100, Jim Lesurf
wrote: In article 4a7be630.269829187@localhost, Don Pearce wrote: On Fri, 07 Aug 2009 09:10:40 +0100, Jim Lesurf wrote: Hi, I've just put up a new webpage that provides some measurements on the properties of a variety of loudspeaker cables. The page is at http://www.audiomisc.co.uk/HFN/Cables3/TakeTheLead.html It is an expanded version of the article published in 'Hi Fi News' a few months ago. Slainte, Jim No conclusions section there, but maybe as follows? There are a couple of 'follow on' articles which I wrote a while ago but are currently unpublished. At present I'm deciding what to do with them. Put them directly onto the web, or see if a magazine wants them first. When they appear the 'conclusions' may be a bit clearer. 1. If you open circuit the cable at the loudspeaker end, it is better if the cable is somewhat lossy, as this will prevent the quarter wave Mod Z dropping to too low (potentially damaging) a value. In general, cable losses will reduce the amplitude in the presented impdance changes with frequency in the RF region. The snag being that if too large, they could also upset performance in the audio region. I can think of certain brand amplifiers which would sing a loud and shrill song to such a load. IIUC one aspect of DNM's argument is that his cables do include RF loss. (My interpretation of what he says is this is due to internal impedance as the cable uses solid core wire. Thus introducing a loss at RF.) I can't see that impedance per se introduces loss. Maybe he meant resistance. Do you suppose he was talking solely about skin effect, or does he use a particularly lossy dielectric? 2. Provided you have a speaker on the far end, none of the cables result in a particularly problematic load at RF. The minimum impedance variations tend to come from the cables with lower characteristic impedance (closest conductor spacing). Yes, although I'd qualify that as below... 3. The Isolda behaves very differently to the rest, and provided it is used as recommended, presents the most consistent and friendly load of any. I could do with some more info on the Isolda cable - what the inductor is all about and how come the impedance drops so low without it. The inductor (and LS end load) are to deal with the loading at RF. If you look, without these the dips go *very* low. That might upset poor amplifier designs which don't have unconditional stability, or, say, whose distortion behaviour could be affected. You'd need to check with Max, but my understanding is that the networks are included as standard with lengths of their cable. Although if you know your amp isn't fussed by a severe RF dip or resonances then I'd say you could dispense with them. Ok, I can see that. The inductor is taking the place of the one that should really already be inside the amplifier. And of course being low loss and low Z, this cable will invert the high Z speaker resonances very nicely into an extremely low Z dip. If only speakers were resistive, we could avoid all this - sigh. FWIW I like the technical performance of the Isolda. But I'd find it a PITA to use as you have to take care laying it out, etc. However if you have very long, essentially straight, cable runs, it should do the job well. Apart from the above, I've continued to use the Maplin 'monster cable' for my own systems. But the runs are only a couple of metres. Same distance here, but I haven't bothered with the sophistication of Maplin cable. I just use some old wire from the junk box. d |
New webpage on loudspeaker cables
In article , John Phillips
wrote: On 2009-08-07, Don Pearce wrote: 1. If you open circuit the cable at the loudspeaker end, it is better if the cable is somewhat lossy, as this will prevent the quarter wave Mod Z dropping to too low (potentially damaging) a value. Alternatively, perhaps, that a well-designed amplifier will have about 2 uH of good quality inductance in series with its output to avoid such a case becoming damaging? That is the 'solution' I personally tend to prefer. It also helps deter entry of RF into the amp via the live speaker lead. Slainte, Jim -- Please use the address on the audiomisc page if you wish to email me. Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Armstrong Audio http://www.audiomisc.co.uk/Armstrong/armstrong.html Audio Misc http://www.audiomisc.co.uk/index.html |
New webpage on loudspeaker cables
In article 4a7cf91f.274676328@localhost, Don Pearce
wrote: On Fri, 07 Aug 2009 10:40:08 +0100, Jim Lesurf wrote: 1. If you open circuit the cable at the loudspeaker end, it is better if the cable is somewhat lossy, as this will prevent the quarter wave Mod Z dropping to too low (potentially damaging) a value. In general, cable losses will reduce the amplitude in the presented impdance changes with frequency in the RF region. The snag being that if too large, they could also upset performance in the audio region. I can think of certain brand amplifiers which would sing a loud and shrill song to such a load. Would you care to Naim one? :-) IIUC one aspect of DNM's argument is that his cables do include RF loss. (My interpretation of what he says is this is due to internal impedance as the cable uses solid core wire. Thus introducing a loss at RF.) I can't see that impedance per se introduces loss. Maybe he meant resistance. Do you suppose he was talking solely about skin effect, or does he use a particularly lossy dielectric? It is difficult to be sure as I've had to 'interpret' his descriptions for myself. But I think his argument is essentially a mix of things which include. A) The cable series inductance and the cable having a high characteristic impedance. This tends to shove up all the peaks and dips. b) The internal impedance ('skin effect') adding in higher series resistance at RF than at audio. So damping the peaks and dips at RF without affecting audio so much. FWIW what I did find interesting here is that the mulltistranded cables also showed signs of internal impedance pushing up the series resistance at RF. So faith that multistrands suppress internal imedance effects may be unfounded for - I assume - the simple reason that, usually, there is no insulation of the individual strands. So the bundles act like a single core with a rough boundary. [snip] Ok, I can see that. The inductor is taking the place of the one that should really already be inside the amplifier. And of course being low loss and low Z, this cable will invert the high Z speaker resonances very nicely into an extremely low Z dip. If only speakers were resistive, we could avoid all this - sigh. Yes. Hence my reference back to the 'SCAMP' article. Loudspeaker designers have a lot to answer for, but rhwy usually chuck the problems onto the lawn of the amp designers and pretend it is nothing to do with them! 8-] FWIW I'd have liked to also do results with C and L loadings as they can give even nastier peaks and dips, dragging them down to lower frequencies. But I could not find any in time that were sifficiently 'pure single value' over the range to make the results easy to assess. May return to this in the far future, though... Curiously, this was all a nice preparation for some later work on the claims about mains cables behaving as 'interference filters'. :-) Slainte, Jim -- Please use the address on the audiomisc page if you wish to email me. Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Armstrong Audio http://www.audiomisc.co.uk/Armstrong/armstrong.html Audio Misc http://www.audiomisc.co.uk/index.html |
New webpage on loudspeaker cables
On Fri, 07 Aug 2009 12:56:52 +0100, Jim Lesurf
wrote: Yes. Hence my reference back to the 'SCAMP' article. Loudspeaker designers have a lot to answer for, but rhwy usually chuck the problems onto the lawn of the amp designers and pretend it is nothing to do with them! 8-] All it would take is a 22nF cap in series with 8.2 ohms across the speaker terminals. A turnover frequency about 1MHz, and virtually no power to dissipate. That would certainly tame the out-of-band impedance of your Spendor LS3/5A nicely. d |
Jim Lesurf Criminal Audiophool Facillitator
"Jim Lesurf Criminal Audiophool Facillitator " I've just put up a new webpage that provides some measurements on the properties of a variety of loudspeaker cables. The page is at http://www.audiomisc.co.uk/HFN/Cables3/TakeTheLead.html It is an expanded version of the article published in 'Hi Fi News' a few months ago. ** Dear UKRA readers, the religious among us can take some comfort from the fact that *SATAN* is currently preparing a special blast furnace in HELL ready to take the putrid soul of one " Jim Leserf " any time soon. SATAN is very proud of this particular, asinine pommy ****head for spreading chaos and confusion among the masses. So he deserves a special reward. Burn you ****ing *******, burn. ..... Phil |
New webpage on loudspeaker cables
Jim Lesurf wrote: Hi, I've just put up a new webpage that provides some measurements on the properties of a variety of loudspeaker cables. The page is at http://www.audiomisc.co.uk/HFN/Cables3/TakeTheLead.html It is an expanded version of the article published in 'Hi Fi News' a few months ago. What IDIOT thinks the reactance at 30 MEGAHERTZ has any influence on the listening experience. And since when ( Fig 1 for example ) do you run a cable open or shorted as a valid test ? WHAT A COMPLETE HEAP OF MINDLESS JUNK ! You should be ashamed of yourself and run some REAL models. Graham -- due to the hugely increased level of spam please make the obvious adjustment to my email address |
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