"The product is discussed on the website: The AC line is "re-referenced" or re-clocked with low frequency harmonics to increase the s/n ratio. Uses 2 AC transformers. Let me guess, another Schumann Resonator in a different package. Perhaps?"
You have raised a legitimate point. ADD-Powr explains why Schumann resonators affect audio signals and systems.
"Precisely what is the advantage of adding noise to the electrical circuit, and what is the benefit of, "electrical environment conditioners rather than AC line conditioners.""
This is not the "noise" familiar to many - that of the RF interference type.
Here the term "noise" is a very low frequency disturbance. It is not filtered away, unlike EMI and RFI, by power supplies and power conditioners.
It is conditioning the power line itself with added harmonic energy that indeed changes the reference or environment from which emerges the "juice" to power and render audio signals, for example. The idea is about adding something to create a tangible benefit. In this case it is harmonic frequency information that will resonate other electrical signals, such as audio.
If you read further, ADD-Powr asserts that pulsing the AC line (the reference) with a very low frequency square wave will impress a vertical modulation such that this "up - down" movement results in a small square wave that is carried into power supplies. Transformer secondaries, AC bridge rectifiers, and the DC filter stages will behave as normal but with this signal pattern on the DC voltage.
The square wave is comprised of, or is the summation of sine waves, cosine waves harmonically related. This discovery was made by the physicist, Fourier. Perhaps when such a signal is introduced, of a very low fundamental say 10 Hz, it will affect the frequencies of another complex signal like an audio signal? It and its harmonics will affect a complex audio signal and its harmonics. Makes sense to me.
The key to adding energy is the process of resonance. The idea of a tuning fork resonating another tuning fork at the same driving frequency (or harmonic) is understandable.
ADD-Powr claims that it is electronically doing something similar here.
I am sure that the technical details could be given, as with any amplifier, DAC, speaker, etc.
It is not really necessary.
The overall idea is all that is necessary for the layman audiophile to subjectively evaluate the merit and claims of the inventor or manufacturer.
But would that information aid in auditioning the product?
Of course, one must demo before buying any product. There is a 30 day money back guarantee, which is plenty of time to determine whether the product works for your system and your ears.
Use whatever test you are comfortable with.
The products work on single phase circuits and balanced power configurations.
Again, it is not "noise" in the way that you are used to thinking.
Give it a chance. You will not be disappointed.
You have raised a legitimate point. ADD-Powr explains why Schumann resonators affect audio signals and systems.
"Precisely what is the advantage of adding noise to the electrical circuit, and what is the benefit of, "electrical environment conditioners rather than AC line conditioners.""
This is not the "noise" familiar to many - that of the RF interference type.
Here the term "noise" is a very low frequency disturbance. It is not filtered away, unlike EMI and RFI, by power supplies and power conditioners.
It is conditioning the power line itself with added harmonic energy that indeed changes the reference or environment from which emerges the "juice" to power and render audio signals, for example. The idea is about adding something to create a tangible benefit. In this case it is harmonic frequency information that will resonate other electrical signals, such as audio.
If you read further, ADD-Powr asserts that pulsing the AC line (the reference) with a very low frequency square wave will impress a vertical modulation such that this "up - down" movement results in a small square wave that is carried into power supplies. Transformer secondaries, AC bridge rectifiers, and the DC filter stages will behave as normal but with this signal pattern on the DC voltage.
The square wave is comprised of, or is the summation of sine waves, cosine waves harmonically related. This discovery was made by the physicist, Fourier. Perhaps when such a signal is introduced, of a very low fundamental say 10 Hz, it will affect the frequencies of another complex signal like an audio signal? It and its harmonics will affect a complex audio signal and its harmonics. Makes sense to me.
The key to adding energy is the process of resonance. The idea of a tuning fork resonating another tuning fork at the same driving frequency (or harmonic) is understandable.
ADD-Powr claims that it is electronically doing something similar here.
I am sure that the technical details could be given, as with any amplifier, DAC, speaker, etc.
It is not really necessary.
The overall idea is all that is necessary for the layman audiophile to subjectively evaluate the merit and claims of the inventor or manufacturer.
But would that information aid in auditioning the product?
Of course, one must demo before buying any product. There is a 30 day money back guarantee, which is plenty of time to determine whether the product works for your system and your ears.
Use whatever test you are comfortable with.
The products work on single phase circuits and balanced power configurations.
Again, it is not "noise" in the way that you are used to thinking.
Give it a chance. You will not be disappointed.