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Measuring Power Grid Interference in Practice
We measured the high frequency noise in the power grid. The voltage going to the measuring kit is conducted by a common EURO cable and the RD Power Filter in order to compare their efficiency. I have made measurements on four different places for comparison.
Read more at: https://www.rdacoustic.cz/en/blog/20...e-in-practice/
https://www.audioshark.org/attachmen...id=26787&stc=1
Re: Measuring Power Grid Interference in Practice
Very good information. Thank you very much for sharing.
Re: Measuring Power Grid Interference in Practice
The only measurements that matter are at the audio outputs of your hi-fi components.
Part of a good hi-fi component design is dealing with power line noise. But power line noise is often caused by poor hi-fi component design.
So that's why measuring at the audio output is important.
Re: Measuring Power Grid Interference in Practice
Of course, you can measure excellent output parameters with laboratory cleaned power in laboratory. But if you have big EMI noise at home, you will have the same noise in the output. This is about EMI filtration. Some audio components have good EMI filters, some not. All filters have some efficiency and if you place extra filter before your audio equipment, it is the step for better result.
Re: Measuring Power Grid Interference in Practice
Who would have a 'laboratory cleaned power in laboratory' ?
But if you have big EMI noise at home, you will have the same noise in the output.
Nonsense.Power line noise is a fact of life and your other hi-fi components are responsible for much of it. Good component designs deal with it.
Trying to measure the continually changing power line noise will confuse most audiophiles and is often nonproductive. Much easier to measure the signal-to-noise ratio at the audio outputs.
Re: Measuring Power Grid Interference in Practice
Quote:
Originally Posted by
DavidPiska
We measured the high frequency noise in the power grid. The voltage going to the measuring kit is conducted by a common EURO cable and the RD Power Filter in order to compare their efficiency. I have made measurements on four different places for comparison.
Read more at: https://www.rdacoustic.cz/en/blog/20...e-in-practice/
Thanks for sharing your interesting study David.
It’s been long known that pretty much any device with a motor – particularly cheap hair dryers, kitchen blenders, AC units, refrigerators as well as light dimmers and many others can create AC line noise. Furthermore as electricity travels down the transmission lines from the generation point, many undesirable effects can occur such as voltage fluctuations and drops and various forms of noise intrusion including RFI and EMI.
I was wondering whether you’d researched how much of the typically high frequency, high amplitude and transient noise actually bleeds through power supplies of various audio components to potentially effect audio signal paths?
Re: Measuring Power Grid Interference in Practice
Quote:
Originally Posted by
kiwi_1282001
Thanks for sharing your interesting study David.
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I was wondering whether you’d researched how much of the typically high frequency, high amplitude and transient noise actually bleeds through power supplies of various audio components to potentially effect audio signal paths?
Yes that's the question that really matters:
'how does it effect the audio signal path' ?
Re: Measuring Power Grid Interference in Practice
That type of noise is why I included a 2-stage line filter in the Neko Audio DAC I designed. I kept around a fluorescent lamp with a noisy ballast specifically for testing purposes.
As for noise that exists on the grid, I do think it varies greatly by where you are located. My experience has been there is relatively clean power in the newer homes around where I live, and it can get pretty bad in parts of San Francisco.