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#1
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Able to use Speaker Wire for Digital Coaxial audio?
My experience with cables running a digital signal is that they
perform just as good with low grade cable as they do with high grade, unlike using it for an analog signal. However I'm not sure whether there would be a difference between using flat or round cable when used for a digital signal. Obviously the round would be a better choice, however flat is a much cheaper solution. I need to run a 50' coaxial digital cable from my computer to my receiver. I was thinking of just using 50' speaker cable with the appropriate connectors. I tested it using some left over speaker cable I had, about 15', and it worked perfectly. Still 15 and 50 is a big difference, I wonder if the sound would still be as good at that distance when using it for digital audio? |
#2
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I've always heard that SPDIF runs best in a coaxial 75ohm cable... I have a
similar setup, using regular installation cabling (cheapest kind but fairly thick), wich work just as well as a coaxial 75ohm cable (tested it - no noticeable difference). My problem is though, that any powersurge in my house will interfere with the audio signal somehow and cause my surround reciever to loose sync with the signal for about 1-2 seconds... Not sure if it's the cable or the PCI soundcard (thrust) though... BTW. if you have a soundblaster card with a jackstick for digital out, you'll need a mono-jack-to-RCA adapter. Stereo-jack adapters wont work! VLC-player will output to SPDIF (havent tried though), but I use Mediaplayer Classic and AC3filter for correct SPDIF output. Other players will just downsample anything to stereo and use regular output, putting the card itself in charge of spdif conversion which only gives you stereo... Regards, Tommy "Mike" wrote in message om... My experience with cables running a digital signal is that they perform just as good with low grade cable as they do with high grade, unlike using it for an analog signal. However I'm not sure whether there would be a difference between using flat or round cable when used for a digital signal. Obviously the round would be a better choice, however flat is a much cheaper solution. I need to run a 50' coaxial digital cable from my computer to my receiver. I was thinking of just using 50' speaker cable with the appropriate connectors. I tested it using some left over speaker cable I had, about 15', and it worked perfectly. Still 15 and 50 is a big difference, I wonder if the sound would still be as good at that distance when using it for digital audio? |
#3
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"Mike" wrote in message om... My experience with cables running a digital signal is that they perform just as good with low grade cable as they do with high grade, unlike using it for an analog signal. However I'm not sure whether there would be a difference between using flat or round cable when used for a digital signal. Obviously the round would be a better choice, however flat is a much cheaper solution. I need to run a 50' coaxial digital cable from my computer to my receiver. I was thinking of just using 50' speaker cable with the appropriate connectors. I tested it using some left over speaker cable I had, about 15', and it worked perfectly. Still 15 and 50 is a big difference, I wonder if the sound would still be as good at that distance when using it for digital audio? Using unshielded speaker cable for digital MIGHT work, but I wouldn't bet on it. And even if it does, it might not be very reliable. So go down to Rat Shack and buy a 50-foot length of antenna coax, and put the appropriate adapters on each end. That stuff is pretty cheap (likely cheaper than good speaker cable). |
#4
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My experience with cables running a digital signal is that they
perform just as good with low grade cable as they do with high grade, unlike using it for an analog signal. However I'm not sure whether there would be a difference between using flat or round cable when used for a digital signal. Obviously the round would be a better choice, however flat is a much cheaper solution. I need to run a 50' coaxial digital cable from my computer to my receiver. I was thinking of just using 50' speaker cable with the appropriate connectors. I tested it using some left over speaker cable I had, about 15', and it worked perfectly. Still 15 and 50 is a big difference, I wonder if the sound would still be as good at that distance when using it for digital audio? I'd be concerned about this. The most important characteristic for a digital-audio cable, I believe, is the cable's characteristic impedance. Coaxial digital-out is intended to drive a 75-ohm cable (e.g. RG59), and is terminated by a 75-ohm load at the receiving end. If the cable's characteristic impedance is significantly different from 75 ohms, the impedance mismatches will cause a partial reflection of the signal. If you've got a mismatch at both ends of the cable, you can end up with signal reflections bouncing back and forth on the cable. What this can do, is cause significant "glitches" in the rise and fall of the digital signal as seen by the receiving component - these are easily visible using an oscilloscope. Digital receivers usually have fairly tolerant input circuits with a good deal of hysteresis, but a big enough glitch could overcome the hysteresis and cause the receiver to mis-detect a bit. The audible effect of this would probably be popping, a static-like noise, momentary dropouts as the receiver tries to resynchronize, or (in really severe cases) a failure of the receiver to detect valid digital-audio signal at all. Whether this happens or not will depend on the cable length, the cable's characteristic impedance, and the details of the driving and receiving circuits. Since the characteristic impedance of a speaker cable is usually not characterized, and is likely to be significantly different than 75 ohms, it would not surprise me if problems occurred. On the other hand, in some situations, with some equipment and some speaker cable, a 50-foot length might work just fine. The only way to know, in your case, is "try it and see". -- Dave Platt AE6EO Hosting the Jade Warrior home page: http://www.radagast.org/jade-warrior I do _not_ wish to receive unsolicited commercial email, and I will boycott any company which has the gall to send me such ads! |
#5
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In article ,
Richard Crowley wrote: Using unshielded speaker cable for digital MIGHT work, but I wouldn't bet on it. And even if it does, it might not be very reliable. So go down to Rat Shack and buy a 50-foot length of antenna coax, and put the appropriate adapters on each end. That stuff is pretty cheap (likely cheaper than good speaker cable). Antenna cable has the right characteristic impedance, but it's probably not the best choice for digital-audio signals. It's usually fairly stiff, having a solid-copper or copper-plated-steel center conductor. The stiffness can make it difficult to route in the tight spaces behind most peoples' AV systems, and can create stresses which pull or push or rotate the connector. If the cable is terminated in a screw-on F connector (as is usual in antenna applications) it'll be held firmly in place, but if it's terminated in a male RCA plug (as is usual for digital-audio connectors) it may tend to pull out of the socket. A better choice is the more flexible 75-ohm cable which is used for composite-video applications (the pre-made cables come with a yellow-jacketed RCA plug) This cable uses a stranded center conductor, and is often as flexible as an audio cable. This cable may be lossier than an antenna cable at high RF frequencies, but that's irrelevant for composite video and for digital audio. -- Dave Platt AE6EO Hosting the Jade Warrior home page: http://www.radagast.org/jade-warrior I do _not_ wish to receive unsolicited commercial email, and I will boycott any company which has the gall to send me such ads! |
#6
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"Dave Platt" wrote in message
The most important characteristic for a digital-audio cable, I believe, is the cable's characteristic impedance. Coaxial digital-out is intended to drive a 75-ohm cable (e.g. RG59), and is terminated by a 75-ohm load at the receiving end. If the cable's characteristic impedance is significantly different from 75 ohms, the impedance mismatches will cause a partial reflection of the signal. If you've got a mismatch at both ends of the cable, you can end up with signal reflections bouncing back and forth on the cable. True, but surprisingly large mismatches are tolerable at low frequencies and short lengths, such as are commonly used in SP/DIF I think that just plain old resistive loss is pretty important, too. Coax made for cable systems and VHF/UHF work tend to be made up of thin layers of copper and or silver laid over steel or aluminum. Steel in particular has a lot more resistance than equal thickness copper. |
#7
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"François Yves Le Gal" wrote in message
On Wed, 2 Feb 2005 15:43:13 -0500, "Arny Krueger" wrote: True, but surprisingly large mismatches are tolerable at low frequencies and short lengths, such as are commonly used in SP/DIF The initial poster - troll? - mentioned 50', which is an order of magnitude above anything short. Agreed. Anyway, quality 75-ohm coax is cheap and widely available, why bother with anything else? Agreed. |
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