Jim,
I'm having trouble correlating you're two statements:
"audio cables are too short and the wavelengths of audio signals too
long for
transmission line behavior of audio cables to be a factor"
And,
"you want cables to be as "beefy" as possible if you want good solid
bass. This is the
old "damping factor" issue. "
So my question is:
How does the change in DC resistance due to beefier cables affect the
bass frequencies?
First your saying there's no transmission line behavior due to the low
frequencies used, then you're talking about damping factor which implies
an impedance characteristic is in play.
I always thought that as long as you had a large enough conductor to
handle the power levels (with some safety margin) you were OK (thus the
Monster Cable guys are full of it). But you're saying there is some
sort of impact to low frequency response based on the DC resistance?
Again, I'm no audio guy, but I'm having trouble putting this altogether
in my head. Thanks.
73, de ed -K0iL
-----Original Message-----
From: rfi-bounces@contesting.com [mailto:rfi-bounces@contesting.com] On
Behalf Of Jim Brown
Sent: Tuesday, November 09, 2004 4:53 PM
To: RFI List
Subject: Re: [RFI] NOISE GADGETS
First, audio cables are too short and the wavelengths of audio signals
too long for
transmission line behavior of audio cables to be a factor. The mfrs of
exotic cables
would have you believe that is not true, and engage in all sorts of
gobbledegook and
double-talk to sell their snake oil.
Second, the only factors about audio cable that DO apply are those you
would expect
from thinking through the basic physics.
1) you want cables to be as "beefy" as possible if you want good solid
bass. This is the
old "damping factor" issue. If the resistance between the power amp and
the woofer is
very low, the amplifier controls the woofer and you get solid bass. If
the resistance is
high, the woofer flops around on its own and the bass is mushy. There
is an excellent
AES paper by Prof Emeritus Richard Greiner (U of Wis at Madison) that
studied a
bunch of the exotic cables and found their benefits to be non-existent,
with a single very
special exception that applies ONLY with a very unique and rarely used
type of
loudspeaker. You can download his paper from the AES website, and you
can find it in
any decent EE library that has back issues of the Journal of the AES.
2) You want ALL audio cables, including loudspeaker cables, to be
twisted pairs. Why?
Again, the laws of physics tell us that twisted pair cable helps reject
external fields,
including both low frequency magnetic fields and high frequency radio
interference. It is
quite well known that parallel wire cable is quite effective at coupling
RF into power
amps, and once inside, the feedback loop couples it to an earlier stage
where it is
detected. Simply replacing what is really nothing more than glorified
zip cord with
twisted pair cable cures a LOT of RFI problems. Magnetic coupling is a
big deal with
power line stuff getting into line level and mic level signals, but
rarely with loudspeaker
wiring. But RF getting into loudspeaker wiring is a VERY common problem
if the audio
gear is around big transmitters (or very close to smaller ones), and
it's a problem from
the AM broadcast band all the way up through VHF-TV frequencies. Why is
this a
problem with loudspeaker level signals? Simply because a lot of audio
designers don't
think about or understand RF and avoiding RFI.
It's quite interesting that almost none of the exotic cables are twisted
pairs. Prof Greiner
found that twisted pairs of POC (Plain, Ordinary Copper) were as good as
any of the
exotic loudspeaker cables of equal wire gauge, with that single very
special exception
(and it was a twisted pair).
You can download and read a lot of great practical info about audio
wiring and
interconnections from the Jensen Transformers website, all written by
Bill Whitlock.
Jim Brown K9YC
On Tue, 9 Nov 2004 14:17:24 -0700, Howard Lester wrote:
>Jim,
>
>For my own edification... I've never believed in any of this "Monster
Cable"
>nonsense from the first day it was put on the market. We know that,
with
>RF, coax cable exhibits greater losses the higher the frequency, the
longer
>the transmission line, and the worse the SWR. Thinking along similar
lines
>(if one can compare RF to AF), how are audio frequencies affected by
the
>cables used?
>
>Howard Lester N7SO
>Tucson, AZ
>
>----- Original Message -----
>From: "Jim Brown" <jim@audiosystemsgroup.com>
>To: <rfi@contesting.com>
>Sent: Tuesday, November 09, 2004 1:47 PM
>Subject: RE: [RFI] NOISE GADGETS
>
>
>> On Tue, 9 Nov 2004 13:01:10 -0600, EDWARDS, EDDIE J wrote:
>>
>> >It reminds me of the whole "Monster Cable" industry. Now that's a
>> >rip-off. Then again, I'm not an audio guy so what do I know.
>>
>> Ah, but you understand the laws of physics rather well! You've
correctly
>identified it as
>> 100% serpent lubricant.
>>
>> Jim
>
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