FYI, I've been using the new monitor daily for the past three days for 4+ hours/day and it's great. No headaches. (I'm confident that I could put in full 8 or 12 hour days without headaches, but the nature of my life right now is that I'm not at my desk all day.)
Later this week I'll head to Micro Center and buy as many as I can (they say they have 12 in stock), test them for flicker, and let you know what I find. They are still on sale for $130 plus tax.
And of course by the time I got to Micro Center on Friday they were out of stock. So I'll check back daily until they're back in stock. (One of the staff said they should get them this week.)
Also, I counted the number of monitors on display and they actually have about 100. Some may be duplicates of the same model, but my point is that it's not easy to find a monitor with no flicker. Only 3 out of those 100 (one 27" and two 24") were flicker free/virtually no flicker.
You could also use Rtings' tests for monitor flicker, which is pretty reliable
https://www.rtings.com/monitor/tests/motion/image-flicker
qb74 You could also use Rtings' tests for monitor flicker, which is pretty reliable
My hypothesis is that I'm sensitive to very small amounts of flicker (too small to show up on the Rtings tests). I have a number of devices that are supposedly flicker-free that give me headaches.
GregAtkinson qb74 I'm also sensitive to very low amounts of flicker. The screen flicker can be virtually nonexistent when measured grossly with a flicker meter. For me it seems that for screens lacking dramatic backlight flicker, my symptoms are worse with higher flicker of the individual subpixels that can be quite high and visible with a microscope and slow-motion video, but masked when measured collectively with a flicker meter so that it's virtually undetectable. And my symptoms are even worse when the pattern of subpixel flicker differs for the red, green, and blue groups of subpixels. I've also found that the pattern and magnitude of subpixel flicker varies widely for different colors and on different screens. Testing data and methodology here. Unfortunately, methods used currently on rtings or notebookcheck that only use some form of flicker meter/oscilloscope to grossly measure flicker of a relatively large screen area identify dramatic backlight flicker, but aren't able to detect what's happening with the subpixels and also generally aren't able to detect any color-to-color flicker. They should also be checking flicker when different colors are displayed. It's also true that even if only backlight flicker is considered, even extremely low flicker can cause brain injury for me, since some LED lights with less than 0.1% flicker cause injury for me.
jen I've also found that the pattern and magnitude of subpixel flicker varies widely for different colors
I've noticed with pixel inversion that the light colors (light green, light red, light blue and combinations of those colors) often flicker more than darker colors or fully bright colors. I'm thinking it's probably technologically easier to be fully on or fully off, but the colors in the middle have more variation when switching polarity from positive to negative.
I bought 10 of the LG 27MQ450-B monitors today. I tested one today and it looks great.
White at 100x zoom (brightness 100%, contrast 40%)
#D0D0D0 at 100x zoom (brightness 100%, contrast 40%)
Here's the eBay listing for the ten monitors. I am charging the exact price I paid. Hopefully we can get 10 people to give it a shot. The only thing you have to lose is the cost of shipping both ways (and maybe some monitor-induced headaches). But on the upside you could get a usable monitor and help the community understand a bit more about what causes headaches and what doesn't.
I think on this forum somebody posted scientific paper of trial that was done recently that found that 6khz is the limit for flicker humans can see, they thought it was 3khz earlier, this 3khz is lupin detection limit btw. So given the nature of todays reality where gpu dithers colors at pixel level your approach can help those that are not sensitive to subpixel dithering, trmporal dithering. Clearly this technology patented in around 2015 by all major corporations could not get me sick in 2005 right on my first samsung lcd monit model 191T.
I was sick because of backlight light source being ccfl lights that have blue light spike around 400nm, known to be hazard in working environments for decades, these lamps we put into every monitor in that era until LED monitors were made.
But even then could use only laptops with glossy screen, later i found japanese study that explained why, because glossy screens scatter the emited polarised light better by surrounding light blocking polarised light.
So would not concentrate my work on reselling flicker free monitors when the real problem is temporal dithering that flickers individual pixels. This can be solved in software as the neurological testing software vendor claimed, links also somewhere in this forum.
We need crowd source money for somebody low level programmer in gpu market to solve this, evga just gone bust so hiring somebody should be possible.
smilem I do agree that there's probably a flicker threshold above which humans aren't affected.
My plan in searching for monitors is that if I couldn't find any flicker-free monitors, then I would re-do my search and ignore high-frequency flickering. But since I found some flicker-free monitors, that wasn't necessary.
Just curious: is there a reason you think temporal dithering is more problematic than pixel inversion? I had been assuming that pixel inversion was more problematic because it happens to every pixel (not just some pixels), at 30 hz (a very low frequency), and is visible to the naked eye (if you use the Lagom site, the Techmind site or this site: https://pixelinversion.com/)
I'm a little surprised that nobody has bought a monitor yet.
Of course about once a week someone posts to this forum that they've found the solution and all you need to do is (fill in the blank). So I would forgive any of you for being skeptical.
Are people skeptical? Or is the monitor too expensive? Or are people not in the market for a monitor?
I'd be interested to hear people's thoughts on this.
Hey Greg my concerns are that it's 6+2frc. I would be okay with 6bit but want to avoid FRC/dithering. Also my eyes feel better on a higher refresh rate panel.
jordan Hey Greg my concerns are that it's 6+2frc. I would be okay with 6bit but want to avoid FRC/dithering. Also my eyes feel better on a higher refresh rate panel.
That's understandable. I read a couple places that it's 8 bit + FRC and that this monitor supports 167 colors. I assume that means 167 out of a possible 256, whereas a 6 bit panel would only support 64 colors. I'm not sure that I fully understand it, though, so feel free to correct me on this. But nevertheless, it does seem to use FRC and the refresh rate is only 75 hz.
For what it's worth, the other two flicker-free monitors I found (Dell s2422hz and the same LG monitor but in a 24" size) aren't any better. I was hoping maybe the Dell would be an option for you.
Just curious if you have a hypothesis about why you'd be sensitive to FRC and not the other kinds of flickering that comes from monitors. I've kind of discounted FRC as an issue for me because of the low flicker rate (presumably near 1% if the monitor is alternating between similar colors) vs some of the more significant flickering coming from monitors. Testing 100 monitors was pretty eye-opening for me to see the significant flickering coming from these screens/pixels.
I think it's great your checking all of them and found those to work! I'm not discrediting them at all I just know for myself FRC/dither seems to be an issue for me sadly.
I tried the Xperia 1V which has super low modulation but it's a 8+2frc panel so thought it's the FRC as the phone made me feel not so good. I also had a bad experience with the iPhone SE and iPhone 11 which seem to have color pixel flickering especially with nightshift/dark mode/reduce whitepoint which is all that I used at the time too. Oddly the apple watch ultra didn't affect me which I'm assuming isn't FRC?
My prior LG 4k monitor was 8+2frc and my Asus pg278qr was 6+2frc which they both also bothered me.
I do have some new devices I will be testing soon just dreading a possible flare up as I'm super sensitive but hopefully something works otherwise back to the drawing board! Just curious what gpu are you driving the monitor with?
Thanks!
jordan I do have some new devices I will be testing soon just dreading a possible flare up
I've totally been there. Good luck!
jordan Just curious what gpu are you driving the monitor with?
Mostly I just use the integrated Intel GPU. I had a Dell E6410 that worked well for me at my last job that had some sort of discrete GPU, but I don't remember the name of it.
Thank you!!
Oh maybe the Intel integrated is running the monitor at 6bit possibly? Supposedly Intel doesn't dither with a 6bit monitor. Does windows show it as 6 or 8?
jordan Does windows show it as 6 or 8?
Both my computers (one desktop and one laptop) show it as 8.
Can you post radex lupin old version with translucent sensor test results and opple v3 for the monitor that professional gear finds no flicker for comparison reasons?
Use this app for radex connected to android phone
Google this and download from play store
Анализатор для Lupin
https://play.google.com/store/apps/details?id=com.mgns.LupinAnalyzer&hl=ru
smilem Google Play won't let me install the app you suggested. I wonder if it's only available in certain countries.
Here's pictures of the Radex Lupin.
I have the Opple Lightmaster version 4. Here's the screen shots from that. The flicker frequency varied widely, so I included a couple screenshots of that. Usually it was in the 28-40khz range, but sometimes it was quite a bit lower.
You measure with radex at minimum brightness?
Here is direct link to radex app https://www.upload.ee/files/16302445/LupinAnalyzer.apk.html
