Why do AC cords make so much difference?


Very simple question.

If you do not believe that AC cords make any difference please do not post in this thread. There are countless other threads you can debate this.

I really need someone to explain to me why great AC cords can make a significant sonic impact on every component I have in my two channel system?

KF
128x128tok20000
Depends on the dampers and their position with respect to the conductors. In general, adding parallel (shunt) capacitance is not a problem, but adding series inductance is. If you had an LCR meter this would tell you whether you are degrading it or not. As long as the fillers are non-ferrous you can be relatively sure they will not increase inductance.
I'm going to start marketing some power cords very soon and decided to share the design here with you folks.

First of all, you start off with heavy ( 8, 10 or 12 gauge ) bare copper wire. You then take all three conductors and twist them together as tightly as possible. Select one wire as the hot, one as the neutral and one as the ground and wire them into the AC plug and IEC jack accordingly. I will GUARANTEE that this design will allow a greater amount of current flow in less amount of time than any commercially available UL approved design on the market. The initial amount of energy that is drawn upon first use of this cord will amaze you. I guarantee that the results will be so drastic that you would swear it was like the first "bang" for those of you that believe in the "BIG bang" theory. On top of that, you will not believe just how quiet your system is and how much the noise floor has been lowered. You would swear that your equipment was not even turned on it is so quiet. Your "black background" will be SO black that it resembles charcoal. I GUARANTEE IT !!! Sean
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PS... The above is all a hoax. Do not follow these directions unless you want to burn down your house : )
Audioengr,
I love your calculations and I think your intentions are good, but unfortunately -

1) Capacitor banks in power supplies are designed to handle transients at peak power levels. At normal listening levels only a fraction of that capacity is used. I agree that peak transients at full volume might distort due to voltage sag on the power rails, but I would be more worried about hearing loss than distortion in this case.

2) The AC power in the U.S is 60HZ, not 20KHz. (Duh...) If you are worried about a 20KHz component getting into the signal path through the power cord, then you would want a power cord with higher capacitance to filter it out. Any amplifier that doesn't have adequate bypass and isolation in the power supply shouldn't be in your system in the first place... so any power cord that results in an audible improvement would be a band-aid rather than a fix to the root cause of the problem.

To be fair, I should say that there are probably homes out there with enormous amounts of noise on the AC power. While replacing the power cords to all of your equipment could conceivably make a difference, the proper remedy would be to install a power filter/conditioner.
I'm another guy thinking the cords act as a band pass filter. A couple of years ago i read an article about using home electric wiring as the house computer network as well. The network signal was designed to operate at a higher frequency outside of the "noise band" on the power cable. high end power cords are likely to act the same way. THe question i have, however, is once you get rid of the crap on the power signal and you are setting with a pure 110 ac current why should there be a tonal effect. Bwhite has some interesting thoughts but i would think that the magnetic field of a large power transformer would overwhelm the effect of a magnetic field in the power chord. the lower inductance arguement stands up well for amps but for a low draw component like a cd player?? On the positive side the mystery gives the ole brain something to feed on
Piezo: Your comments about low inductance to Audioengr are something that i've tried to stress to him in other posts. It is not so much the low inductance than can be helpful in low current demands as it can be the added capacitance that many such designs bring with them. If someone doubts the effectiveness of added capacitance, try sticking an AC rated cap into an outlet and measure / view the differences in the power provided at that outlet.

Redbeard brings up added capacitance in his post ( rightly so ) and also touches on the lack of filtering in components making the differences in power cords being noticeable. I agree with him whole-heartedly in this respect and am glad to see that someone else shares this view. Most products are NOT properly filtered, regardless of price paid or brand name "prestige", and that is why one can hear the differences with various AC delivery systems. The only problem with Redbeard's suggestion to install a power line filter / conditioner to remedy such problems is that they too are mostly under-engineered and end up being a "band-aid" rather than a "cure-all". As such, poorly designed filter based products can bring with them almost as many side effects / problems that they try to solve. Sean
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