Can someone explain what just happened? I turned the "Front Pink in" slider from 100 to 0 and the static noise in my headset disappeared.Mhmd1993 OP t1_iu5h3hu wrote
I have a Sennheiser PC 350 SE headset and I've been hearing a static noise which becomes clearly audible when raising the volume. It has been around for years now and I assumed it's a problem with my headset, it didn't bother me because I rarely raise the volume over 30%.
Today I tried playing around with the settings to get better sound quality, I turned the "Front Pink in" slider from 100 to 0 and left all other settings unchanged. The static noise in my headset disappeared even when I raise the system volume up to 100%. I tested a few games and music, everything seemed normal. I googled the static noise problem and they don't mention this particular solution.
How did this eliminate the static noise? and should I keep it this way?
PS: I'm not using any soundcard or DAC/AMP, just my headset and motherboard's (Asus z190-A) onboard sound.
TildeCommaEsc t1_iu5jw5j wrote
Could be the wiring to the front connector is not shielded or has poor shielding so introduced radio frequency noise from the computer. RF generated in various parts of the computer can induce noise in wiring. Early computers sometimes used this for sound generation with AM radios.
ScaleLongjumping3606 t1_iu7y1r1 wrote
Pink most likely means pink noise
And so you probably just turned off the pink noise generator.
Pink noise is sometimes used for calibration applications in sound studios. Like, for example, when you’re mixing sound for a feature film, at the end the Dolby engineer comes in to make the Dolby encoded audio and they have a special pink noise generator that they use to calibrate the sound of the studio to their theatrical standard.
Not sure what the use is here, but it’s probably related to testing whether your headphones / speakers have a flat frequency response.
See also this handy video explanation.
WikiMobileLinkBot t1_iu7y2vz wrote
Desktop version of /u/ScaleLongjumping3606's link: <https://en.wikipedia.org/wiki/Pink_noise>
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WikiSummarizerBot t1_iu7y2xy wrote
>Pink noise or 1⁄f noise is a signal or process with a frequency spectrum such that the power spectral density (power per frequency interval) is inversely proportional to the frequency of the signal. In pink noise, each octave interval (halving or doubling in frequency) carries an equal amount of noise energy. Pink noise is one of the most common signals in biological systems. The name arises from the pink appearance of visible light with this power spectrum.
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