Very interesting. I can remember being able to hear a high pitched tone when I was 4-6 shopping with my mother in department stores that seemed to get louder when we approached flush mounted speakers in the ceiling. This article measures the frequencies and explains it's a normally operating feature of the systems.
I live in Japan, Tokyo, and sometimes I come across these annoying/distracting high-pitched noises even in residential areas. They are a nuisance for bypassers too, if you've got ears young enough. But the residential areas don't have any problem with loitering youngsters, so I keep wondering if the noise is targeted against pests or wild animals. This article made me think if I should seriously start measuring the volumes and frequencies objectively. What kind of equipment would you need to get some data to get started with?
what kind of equipment
Any microphone hooked up to a laptop with a microphone input. Or a phone running some audio spectrogram app.
Getting started is very easy, but then you'll be constantly tempted by better sensors, more sensors, more channels, more analysis...
Normal computer recording only goes up to 48kHz (24kHz Nyquist rate, with analog filters lower than that to prevent aliasing) but high-quality equipment might support 96kHz or even 192kHz.
even a headphone plugged in wrong is a good enough sensor to start.
when it gets bad you start looking at designing your own ribbon elements and considering active pickups. when it gets worse you may find yourself deeply concerned about ADC and clock skew.
It doesn't matter what your microphone can do, because your sound card does the filtering and digitization.
it might; depending on your goals: microphones color the sound and their limits can be as valuable as their capabilities, in the right context.
see the mics that harmonica players lust after. "You traded the Cadillac for a microphone? ... I can see that."
I believe many sound chips still have ways around any pee-processing they may apply, might check the folks using them for low rate oscilloscope inputs
And many modern sound card IC sample at an effective rate of 192kHz and use internal DSP to downsample that to the requested sample rate. Much easier to design a good low pass filter on the cheap when your Nyquist frequency is on 96kHz instead of 22kHz.
So the frontend of the sound card might actually be remarkably wide.
I assumed that most of the normal consumer-level stuff is (perhaps very deliberately) insensitive to sounds that human ears are insensitive to? The common codecs, for sure, tend to have rather harsh cutoffs around 20kHz (the common sampling rates being 44 or 48kHz, and the Nyquist frequency half of that, 22-24kHz, so you have to start filtering well before?)
Plus, I'd rather not walk around with a laptop. But perhaps smartphone apps are capable of consuming the mic input unfiltered? (Never tried recording APIs for that purpose)
Studio Six Digital makes the very useful app AudioTools. They test all iOS devices to create generic profiles for the built in mics. They’ve found them to be very consistent which is kind of remarkable for a consumer cell phone device.
More info here: https://studiosixdigital.com/audio-hardware/generic-audio-ha...
Studio Six tools are the cheapest and easiest way to dip your toes into SMAART - which if you are into audio can be one heck of a rabbit hole :)
but then you'll be constantly tempted by better...
this is a likely outcome for any new hobby
And you might accidentally get into field recording and manipulating sound with a portable modular synth... Oops
I came across some of these in Tokyo recently as well. Super annoying, and I'm 40. I thought I'd be immune by now. I assumed they were intended to drive away cats or rats or mosquitos.
Can't speak for Tokyo, but there are streets in my American suburban neighborhood I avoid because of (presumably) animal-deterrent noises. I'm also 40, and surprisingly can still hear them - and an audiologist had my ears tested last month, and said my hearing is excellent for my age.
Which is a bummer when I have to cycle around several blocks to avoid hearing the squeaks that are physically painful to my ears.
squeaks that are physically painful
Those may be covered under loud noise regulations, if the official measuring machinery has the cutoff frequency set high enough (no reason why not).
Yeah, maybe. But the hassle of trying to convince the town this house is in - which isn't my town - to do something about it is significantly more difficult than just riding my bike around the place.
In my experience those regulations are only ever used to shut down parties with loud music. If it's any sort of industrial or non-obvious noise, good luck getting people to care about it. I have bad memories of complaining in an online community about the extremely loud safety beeps from construction vehicles operating next to my home and being told I was a monster because I must want children/workers to die - and that was a sound whose mere existence didn't need to be explained.
In some places they're used to drive away noisy youngsters.
https://www.theguardian.com/uk/2007/mar/17/society.humanrigh...
I've always wondered about that. I'm also bothered when walking around Tokyo (it's very prevalent in Ginza for some reason). I've also seen it in other cities in Japan but I've never had that issue in other cities in Asia (Hong Kong, Shanghai, Bangkok, etc..)
I'm 40 too but as a kid, I was very bothered by the high pitch wine of the tv turning on, so I'm guessing I've always been rather sensitive.
I heard a pretty bad mosquito noise in a garage in Shibuya that I guessed was to shoo away smokers. It worked on me and I didn’t return.
You almost certainly want some sort of Audiomoth. They record at up to 380kHz and have all sorts of useful tooling.
Those are probably vole deterrents.
I've encountered this a few times in Tokyo myself; from memory at the very least outside of a mall in Shinjuku and outside of a building a block or two away from the Shibuya Scramble crossing. My traveling companion never noticed them until I pointed the sound out, so for those who find themselves in Japan pay attention if you notice a pressure in your ears and a high-frequency sound that seems to get more/less intense as you walk. If you follow the sound to its source you'll probably find that it seems to be coming from a metal trapezoidal horn, usually mounted from ceilings in places outside buildings from standard electrical junction box with exposed conduit. The sound itself is a constant, high frequency (18-20khz?) ring, and can get pretty intense as you approach the device.
I believe they're anti-loitering devices targeted at young people, who can hear a higher range of frequencies than older people. I've encountered them all over the US (if you're in the Bay, there's one mounted outside the Twin Peaks Tavern in Castro), though usually they pulse rather than emit a constant buzz. They're sporadic but common in Tokyo for sure, I encountered at least a dozen in the combined week or so I spent in various regions there. It was always creepy to me whenever I'd discover one, the sound was slightly nauseating if I ever got too close and left a strong negative impression, as though they were some sort of threat.
If anyone knows more specifics about these things btw, happy to have details. I spent a period of time trying to find the exact device but never could find any pictures of them, and unfortunately neglected to when I was actually in Japan.
Omnidirectional reference microphone would do the job.
There are lots of "rat deterrant" devices which emit varying tones 15-20 kHz. they often emit chirps or frequency sweeps. Sometimes always-on, sometimes with an IR sensor (in battery powered versions).
Have you ever listened to a badly mixed song with a persistent high-pitched whine undercutting part (or all) of it? Certainly that's not on purpose either, but I doubt anystudio equipment is giving off an intentional "test" whine either, so I've always wondered how that ends up happening.
Whenever my daughter puts on recent pop music, I can tell instantly. Every pop song singer seems to have their voices artificially boosted into one or two higher harmonics. It's hard to describe in words but instead of the singer singing a single note, it's as if she (and it's very evident with female singers) has some very, very high pitched harmony automatically added, which lasts the whole song.
It's not like a single frequency buzz or carrier wave. It changes along with the pitch of the lyrics and clearly some kind of filtering they're doing to the voices. Either that or I'm paranoid and hearing things.
it's autotune
What a plague this thing is :(
The other comment is right that autotune is almost always present in recent pop vocals - even when the singer is excellent, a little bit is now commonly added to give it that certain sound.
Having said that, I think what you might be hearing is actually another modern trend - which is just boosting the high frequencies in the vocal a lot. Pop vocals right now are mixed very 'bright', sometimes almost painfully so.
Also common to actually have multiple vocal tracks. Sometimes just a double singing the same thing, but sometimes it can be pitched up or down an octave, and I've also seen "whisper" tracks where a whispered vocal is layered with the main one to give it even more of that bright breathy sound.
autotune is almost always present in recent pop vocals
Autotune is often present in almost any decently-high budget studio recording of loads of different genres. Its just not obvious.
Autotune doesn't need to sound like Cher in Believe or T-Pain in any song he sings or Kesha. They're just cranking some of the settings to make those super obvious artifacts. When a sound engineer uses autotune (or the many other similar effects) you wouldn't even notice its there.
Speaking as someone who moonlights doing live music production, autotune is used loads of places.
When Cher's Believe came out, autotune had been a thing for several years. Its just that most people thought people didn't like speed == 0 until Cher made it a thing.
I've got an example of this: Some Blackpink songs (cannot remember which ones, possibly Playing With Fire or DDU-DDU-DDU) were mastered and released on Spotify/iTunes [unsure if has been removed now] with a 18-19kHz carrier tone (iirc it was actually a number of tones) modulated. The signal was very loud. I first noticed this in a friend's car and assumed it was because the song was ripped from YouTube, but later realized that all of the versions have this.
The reason for this is because at concerts, you can buy a piece of merch called a lightstick. Essentially, it is a STM32 and a mems microphone that is demodulating the carrier signal, so it can flash in time with the music. The tone has to be <ultrasonic because it has to work with consumer speakers and the mic in the device.
I assume the theory goes that anyone who has been to enough concerts to have a lightstick is no longer capable of hearing the noise.
Alternatively the sound is in there deliberately so that if you have a lightstick it'll start playing in time with the music.
Relatedly the wristbands used at for example, Taylor Swift concerts use 38kHz IR floodlighting for the control signal. Recently HN'd: https://news.ycombinator.com/item?id=40492515
This happened recently on Taylor Swift's rerecording of 1989 - a persistent tone at 15KHz on multiple tracks [0]. The Taylor's Version records have to be some of the most carefully-produced albums around, given that the goal is to accurately reproduce existing recordings, so it's amazing that it made the final release.
[0] https://old.reddit.com/r/TaylorSwift/comments/17iv3r2/for_pe...
It's surprisingly common in older music. I assume it's because recording studios used to run SD CRTs and everybody working there had already lost their high-frequency hearing. A 15.68kHz (mid way between PAL and NTSC horizontal refresh frequencies to remove both of them) notch filter fixes the problem in most cases.
Sometimes it's old ears, sometimes it's the people in the room being oblivious to it from hearing it too much. I tell the story a lot about kind of the inverse of this - I was mixing my band's (terrible) recording, and during a weekend of mixing, I heard the squeak from my cheap kick pedal, like an icepick to the brain, piercing through the mix. I did my darnedest to EQ it out, and felt pretty good about it in the end.
On my Monday morning drive to work, I put on a CD by the band Cake, an album I'd listened to dozens, if not hundreds of times at this point, and would you believe that now, piercing through the mix, I heard the squeak of the drummer's kick pedal. Never noticed it before, but because I was so focused on those frequencies for two days straight, now it was all I could hear.
I switched to listening to purely electronic music that month, and I never noticed squeaky kick drums in studio recordings again.
Thanks for not telling us the track! I probably love that song, whichever it is, and wish to remain ignorant.
I've noticed some FM stations have an odd metallic ringing noise in the background - especially country for some reason. I'm fairly certain it isn't intentional.
No mention of how bad this must be for dogs and other animals that can hear better than humans.
I always wondered the same about ultrasonic parking/proximity sensors on cars.
What cars produce ultrasound? I thought radar is used.
Most cars have ultrasonic sensors for parking and radar for longer range detection, such as cruise control.
I hear some car alarm sensors when passing by, the ones that will trigger when someone is about to park too close and hit the armed car.
Wikipedia says both ultrasonic and electromagnetic are used: https://en.wikipedia.org/wiki/Parking_sensor
One of the references is for a Mercedes system that uses ultrasound
Every single car from every manufacturer that has PDC sensors in the bumper, which are typically visible as 4 circular sensors on the surface of the bumper.
induction stovetops create extremely loud high pitched noises, some get up to 100+ decibels. You can't "hear" it but at higher heat levels you can definitely "feel" it in your ears.
LED bulbs must drive them crazy. Many emit ultrasounds that I can hear when I'm next to such bulbs, like that of a vibrating capacitor (low quality AC filtering, low quality capacitor, or both).
It’s been used for ads for years.
How so?
I brought some class actions years ago alleging the unlawful use of this tech for essentially ads purposes: https://topclassactions.com/lawsuit-settlements/lawsuit-news...
and https://www.freeadvice.com/legal/lisnr-responds-to-lawsuit-t...
1st link: claim dismissed. 2nd link doesn't work for me (access denied).
I had almost forgotten about the “Mosquito” devices for deterring youths that became ubiquitous in some areas during the late 2000’s and early 2010’s.
They were quite expensive and I know of a few people who got annoyed and specifically vandalised them due to the annoying sound.
I'm glad those seem to have mostly faded away? The installation of them especially in spaces open to the general public has always struck me as deeply sick and antisocial
I believe they were harming birds and insects, but I don't think someone using a mosquito tone to deter human beings cares much for wildlife health
There’s still a few around where I live, way less than before though and I think it’s old installations that somehow still function instead of “net new”.
What’s awfully irritating is that I can still hear them. I’m in my 30’s with pretty gnarly hearing damage, and can still hear that frequency range.
People they were designed to keep from "hanging out" no longer "hang out" outside any more anyway.
FM Radio transmitters broadcast a continuous 19 KHz pilot tone to indicate that it's a stereo broadcast. If it's present, then there's also a 38 KHz AM modulated carrier, which has the stereo information.
The main FM modulation is (Left + Right) audio channels - the baseband. The 38 KHz subcarrier is (Left - Right). Notice that the stereo information is likely to be higher noise, being AM and without a lot of power. So on weak FM broadcast signals, you're often better off setting your tuner to mono.
Some cruddy FM tuners don't properly filter out the 19Khz pilot tone, resulting in ear-ringing in the listener.
The unfiltered pilot tone was a problem when recording FM radio onto tape, beating against the bias tone and confusing Dolby NR into thinking there was constant sound.
High-end cassette decks had an "MPX Filter" which was a sharp 19kHz filter before the recording system.
You betcha!
And FM broadcasts have a high-frequency pre-emphasis, which adds something like 10dB of boost to audio high frequencies. This is to reduce high frequency noise that occurs in analog FM systems. Radio receivers have a matching de-emphasis high-frequency cut.
Indeed, both vinyl phonographs and audio tape systems employ similar pre-emphasis and de-emphasis. It's the RIAA curve for phonographs. Not sure what the standard is for mag tape.
For mag tape, it's different Dolby NR schemes.
confusing Dolby NR
Accidental DRM even before the "D" came to be.
Use it to deliver ads somehow
Please don't write such things on the internet
It’s clearly written it’s an idea. I don’t know what you’re implying here.
He's saying not to give them any ideas.
Having read this blog in the past, I imagine the author was sarcastic on this one.
Totally speculative territory, but I’ve had headaches when going to a shopping center since I was a kid.
It’s infallible, one to two hours and my head is exploding. I’ve always attributed it to the noise, crowds and sensory overload but it never happens elsewhere. Could it be?
Smell, too. Clothes stores always smelled horrible to me and almost always gave me a headache.
Thanks. I thought it was just me, and circumst
Has the hypothesis that this is noise from a class-D amplifier (which I assume most commercial speakers use) been eliminated? Those generally switch at MHz frequencies, but have subharmonics all over the place except the ones that have been carefully eliminated by filtering. I wouldn't be too surprised if there was a cheap brand of class-D amplifier that had a 20 kHz tone.
I'd also be suspicious of this. You can also get a lot of beating artifacts from having many amplifiers in close proximity. If the speakers were still larger "mid-range" horns as were seen in decades past, this also might be less of an issue (low efficiency above 10kHz), but for cost/aesthetic reasons the speakers have shrunk quite a bit so they no longer mechanically filter much.
If the problem was something everyone could hear it would likely be fixed, but since it's a minority, it's likely to persist.
One other possibility for active US is crowd tracking. I've seen solutions that monitor # people and walking speed at doorways using ultrasonics. A lot of "one way" doors also use simple US detectors.
What does the author use to measure sound and create those graphs? I'm interested in automatically monitoring an annoying noise that's coming from a neighbour.
As others in the comments have already mentioned, Studio Six makes very nice Audio Tools (at least on iOS/Mac, not sure if they are also on Android). Their SMAART module is the cheapest way to get access to SMAART tools - which can be a thing in and of themselves. I use them to asses what's going on with live sound I occasionally mix. What's really nice is they calibrate fairly accurately to Apple hardware out of the box. More than accurate enough for my purposes.
> .. there's a clear Doppler shift in the reverb. The frequency shift goes from positive to negative at the same moment that the scooter passes us, seen as the wideband wheel noise changing color.. The speed of sound at 15 °C is 340 m/s. The maximum Doppler shift here seems to be 350 Hz. Plugging all these into the equation we get 11 km/h, which sounds like a realistic speed for a scooter.. Automated speed trap in the car park..
Doppler radar, https://en.wikipedia.org/wiki/Doppler_radar, also applies to WiFi reflections, which can be visualized, https://www.youtube.com/watch?v=g3LT_b6K0Mc.
Upcoming 2024 "AI" PCs, tablets and phones with NPUs and WiFi 7 can use machine learning and doppler reflections to infer human activity in 3-D space (proximity, movement, heart rate, gestures), via IEEE 802.11bf WiFi Sensing, https://www.technologyreview.com/2024/02/27/1088154/wifi-sen...
> Soon, thanks to better algorithms and more standardized chip designs, [WiFi] could be invisibly monitoring our day-to-day movements for all sorts of surprising—and sometimes alarming—purposes. Yes, it could track your breathing. It could monitor for falls. It may make buildings smarter, and increase energy efficiency by tracking where people are. The flip side of this, however, is that it could also be used for any number of more nefarious purposes. Someone outside your home could potentially tell when it’s vacant, or see what you are doing inside.
I searched the article for "occupancy" and nothing. These ultrasonic tones are most likely ultrasonic occupancy sensors used for lighting and/or security. Typically they're 25kHz or 40 kHz (i.e. out of normal human hearing range), but it's possible that they are measuring some subharmonics of the sensors. I've certainly encountered ones that have mechanical issues and will spit out frequencies that I can hear too well.
Cruise ships do this. It drove my kids crazy.
When I used to work with PA systems we had this really cool old-school looking impedance meter. We used to check the continuity of the PA like you do with a resistance meter in an electrical circuit.
I dont know much about analog audio but if I am remembering correctly, the device could inject a 1Khz tone that was only heard on speakers with impedance problems.
Oona's blog posts are consistently bangers; always a treat when she posts a new one.
Bistatic 0. one transmitter + two receivers. Very fun topic as I worked on a few and sync them up as the transmitter radar needs to connect to the second receiver radar (usually a full radar for redundancy). Multistatic is fun also as they employ many covert receivers. Had many war game scenario conversations about the setups.
Maybe they’re getting a bistatic return with multiple microphones separated in distance enough to be significant.
Ultrasonic frequencies generally start at around 20,000 Hz (20 kHz) and can extend up to several gigahertz (GHz). 1
0. https://en.m.wikipedia.org/wiki/Bistatic_radar
1. https://www.rfcafe.com/references/general/ultrasonic-spectru...
Her blogs are always a joy to read
I work for a manufacturer of PA systems, our amplifiers only do a periodic test every few minutes, one channel at a time. We measure the current the speaker circuit draws, and if that changes drastically we know something is wrong.
From the description of the product, I think the intention is that the tone is received electrically at the end of a cable run, so receipt of the tone indicates continuity of the speaker cabling. This high frequency has been chosen to ensure that it is low enough to be amplified and transmitted along with the audio content, and is high enough to be attenuated by the tweeters (so little energy is transmitted), and high enough in frequency so that whatever is emitted by the tweeters will be inaudible.
If this is the case, it would sound like there is no need to encode any information on the signal, just it's presence is enough to test the wiring is intact. I'm assuming this is so that if the PA is required for, say, an emergency broadcast, it is fit for purpose.
The presence of a <20Khz signal would imply that it was found that in whatever installation was being used that the bandwidth of the amplifiers or some other filter was attenuating the test tone too much to be received properly, so this bodge was put in place.
I'd like a way to use an array of mics and do some sort of visualization and video overlay to try to see and locate the sources of these kinds of high pitch sounds.
I wonder how much spectrum screaming we’re doing from the perspective of other species’ sight and sound.
I might have been scrolling through the audio spectrum while waiting for the underground train;
What gadget is this person using for this? And audio-y flipper one of sorts?
I'm not sure I ever managed to hear a 19kHz tone, but I'd say it might have been possible (or the tone was a lower frequency one).
But yes the old CRT whine I could definitely hear
I was young. My mother could not hear it and thought I was just being annoying. This is several decades ago, now I can barely hear my turn signal blinker and am preparing to emulate my father's practice of driving a few miles with his blinker on after signalling a lane change.
One thing that can help is pressing the turn signal lever with less force than is needed to latch it. This should cause the indicator to flash three times and then stop. It’s an operating mode I wasn’t aware of for decades.
Not all cars do this, german car feature? (only VW's I've driven from 2000's onward seemed to have)
My Kia has it as well.
Mazda too
I've had this feature in Chrysler, Ford, Honda, and Hyundai cars ranging in year from 1995 to 2021.
Works on my 2009 Honda and 2017 Chrysler.
I think "comfort turn signal" is a feature all newer (2000+) cars should have. I haven't found one from that age that didn't have this feature.
My 2012 Vauxhall Astra does this.
In those cases, you just hold the signal to the point of switch activation, then let go when done.
Long ago I made a conscious effort to turn off my blinker when I’m halfway into the next lane and now turn signals are like entirely subconscious for me.
I've been trying to break that particular habit, on the grounds that most of the purpose behind a turn signal is to indicate entry into a new lane rather than departure from the old one. Not sure what the law says about that, though.
Both equally important.
If the signal is used sufficiently in advance (aka "indicating" your lane departure),
and you're not cutting things so close you need a blinker to fend off cars behind,
then there should be no problem turning it off once half of your vehicle is in the lane.
I'm 30 with mild tinnitus and listen to music too loud but I can still hear CRT whine too, go figure.
Wait, people regularly just don’t hear it?
You'll usually stop hearing the CRT whine in your 20s, 30s if you're lucky. It's at nearly 16KHz and the highest frequency you can hear always drops as you age.
Of course, these days people also regularly don't hear it since CRTs are nearly all gone.
37 here. Definitely still hear if the CRT is on. I have a few 8bits.
Even back in my youth and early adulthood, there was a wide variation on how loud CRTs were between models and individual units. There were some that were close to silent for me, while others were very noticeable.
I've been tested to 22+kHz, autistic, and older. It was the worst era.
Some of the awful roars of noise I've heard while older people called me a weirdo. CRTs, early checkout scanners, some audio systems.
And back when "as seen on TV" electronic dog whistle trainers were all the rage? Torture.
A few years ago I went to the beach. The place I was staying at had a CRT television. I tried to use it once. I have no idea if something was wrong with it, but it was loud enough to cause pain. Once I turned it off, everything was quiet again and the pain was gone.
Yeah, that one's a bit lower. 15.625kHz or 15.75kHz depending on your region.
I wonder how much of this sound pollution disproportionately affects autistic people. We need to make our soundscapes accessible.
Or the idea that the humans are just blissfully unaware while their 'hyper' cat/dog is stuck inside a home with some device screaming 24/7, LED lights flashing, etc.
To this day, not one person in the spec reviews in whatever overseas OEM electronics or those split AC units (which are fantastic in one regard) reflects on persistent light in a room where people are sleeping? The worst is encountering AC units when arriving at a hotel that do not have a "display" button to turn off the 20C display in white LED. Are the actual people that make these and make those decisions just tougher or they're just ignorant?
Lately we had both our tenants in our other house (on the same lot) leave, my wife trapped two stray cats inside the house, one escaped, and we are trying to tame the one who stayed.
I moved the TV, XBOX, a $50 PC and almost all of my optical discs (but no books) over there because (1) I won't be so mad if a copy of Disney's Frozen gets pissed on (he's a tom), and (2) if it does the disc will be undamaged and at worst I can discard the package.
That room gets really dark and it doesn't have a switch controlling an overhead light so turning off a floor lamp and then sneaking out the door without creating an opening for the cat to escape (though he's much more inclined to hide than run) leaves me quite happy for the little LEDs and stuff that create just enough light to get from the couch to the door.
Black sharpie and electrical tape. Never travel without them.
I think the dogs can hear our induction stove with ultrasonic whine, but somehow my cat will sleep blissfully in a room with a VGA CRT whining from 30-80 kHz (perhaps quieter than the stove), and used to sit in front of a CRT TV whining at 15.7 kHz so loudly I couldn't stand it without headphones.
When I was a kid I noticed that the adults in my life couldn't hear that CRT sound. My son bought a CRT TV with a built in VCR to use with a Nintendo 64 to get out the last frame of latency. I noticed the other day that I can still hear that sound, but I've always had sensitive hearing and I've always kept amplified sound at a low level and worn ear protection while using machinery, going to motorsports events, etc.
(In the past I have volunteered as a sound man for live music events but I have never been at a venue which I thought wasn't too loud in terms of absolute sound pressure or in terms of there being audible distortion in the amplifiers & speakers, so I haven't made a habit of it. My son won tickets to a 38 Special + Foghat show that we went to last week, I didn't mind the loudness much but it was clear to me they were pushing the sound system just a little too hard.)
I remember in school, we'd often hear the TV whine and know we were watching a tape in class that day without needing to look up at the TV (mounted high in the corner by the ceiling.) The teachers used to wonder how we knew and didn't believe us when we said we could hear powered on TVs.
That’s … a horrible thought.
How does one get a 19khz microphone to check I guess?
My phone shows plausible-looking data up until 24 kHz. I don't have a test device to see if it finds the tone, though
Edit: https://play.google.com/store/apps/details?id=org.intoorbit.... this is the app I use most. Phyphox (https://f-droid.org/en/packages/de.rwth_aachen.phyphox/) seems to only go until 6 kHz but has a lot of other tools. For those wanting to avoid GPlay, this F-Droid app seems to go slightly above 20 kHz but I don't like the interface as much as spectroid: https://f-droid.org/en/packages/org.woheller69.audio_analyze...
My ex got a device to discourage ants. Then forgot where she placed them. Then found out that it was in my daughter's hearing range.
Finding the last one was a nightmare.
Here is the device.
https://www.amazon.com/Ultrasonic-Repeller-Electronic-Repell...
It was
Did it work in its stated goal?
Now if the same could be done for bad LED lighting. I hate being somewhere where the whole room is strobing at 100 hz.
Yeup. Interesting how the older LED bulbs are particularly bad for this (and in the UK, at 50Hz). More modern high quality ones seem significantly better.
GP's comment said 100Hz because that's what you get from full-wave rectification of 50Hz mains, so they were talking about that. It'd be 120Hz in countries that use 60Hz mains (e.g. in North America).
Going into Sears used to drive me nuts. My parents finally accepted that I was actually hearing something that they couldn’t, but it took a while.
I don’t know if it was the loss prevention system that was doing it, or what. All I could do was localize it down to being anywhere remotely close to the entrances. And the closer you got, the louder it got.
These days, my tinnitus is constantly ringing at about that same frequency. So, I would probably never be able to hear it again.
Exactly this. When I was 17 I worked at a JC Penny store as a stock boy. Every time I approached certain entrances (like the main one that opened into the shopping mall) and other areas of the store my ears were assaulted with a high pitch squeal. Never figured out what it was, nobody else seemed to hear it. I've always had tinnitus, and the frequency always seemed to be the same. In fact, I'm listening to it now.
What year was this? I never encountered such a noise in my stock boy days, but I bet they were a lot earlier than yours (early to mid 1970s).
Could have been the pulse frequency of old magnetostriction loss prevention rfid tags.
The tone is not meant to be audio, but might be inadvertently emitted by the electronics.
I wear hearing aids and could always hear them as I passed near them. Obviously not the same as real sound as it was just interfering or something.
I had something similar, when i was young and walking the dog in the evening, i could here a high pitch tone if they had the tv on when i walked by houses.