So the concerns related to LED frequencies are real?
I saw some chatter about them causing headaches, eye strain, and disturbing circadian rhythms, but I hadn’t looked further into it to see if it was legit or a “you should use red light on your balls” health influencer type of thing.
I would get headaches from watching PAL (50Hz) CRT TVs for a long time. 60Hz monitors were noticeably better, and 75 or more was good to endure all day. Modern screens don’t go blank between refreshes (except PWM-based AMOLED) so the refresh rate is mostly irrelevant unless you want to shave off a few milliseconds of latency for serious gaming (then it’s best to match the refresh, render FPS and video signal).
But as I’m walking down the street and move my eyes, I notice cheap lighting whose drivers don’t smooth the 100Hz ripple of rectified AC. Especially if they reach 0% brightness during the ripple. This applies to:
sodium and mercury vapor lights in street lamps
single-board (aka mains-voltage) LED modules in cheap, powerful reflectors
any LED bulb or fixture with a constant-current driver whose mains smoothing capacitor is too small or has failed due to heat (however, some such as EMOS and Solight spherical 18W ones refuse to turn on if the capacitor gets too bad, making for an easy repair)
any dimmable light powered from DC (like 12V and 24V non-addressable LED strips with those cheap flat remotes, or multi-mode flashlights) whose manufacturer was too cheap for a constant-current driver (fair enough) but could have very easily set a higher PWM frequency YET DIDN’T and therefore deserve a PWM shower.
This is especially annoying with RGB ones because the hue changes during the cycle, creating off-color fringes or even “rainbows” when moving my eyes. I can’t believe some people use things like that in/on/around their battlestation: this would totally distract me as my eyes dashed around the monitor while gaming.
multiplexed displays, especially with low duty cycles (look up charlieplexing, chances are your powerbank or similar gadget uses that to minimize the pin count of its chip) - these are usually over 100 Hz though
So yeah, it’s not unhealthy, especially above 60 Hz. But it’s annoying for me to look around badly smoothed Christmas lights. And if they are of different phases (this is uncommon for Christmas lights (and even impossible in most American homes because they have 180° aka split-phase 240 V, not 120° 380 V) but always the case with multiplexed displays), I say a long rolling R to vibrate my face and see them wiggle.
Wait, I’m a specialist lighting designer and i haven’t heard about this < 100hz LED is bad stuff. From my experience, frequencies at around 50hz or lower is what usually causes eye strain/headaches etc.LEDs are typically 60hz.
I’m guessing the >100hz crowd just need to go outside and touch grass for a few hours a day.
Poorly made LEDs actually flicker at 120Hz on 60Hz mains, see my other comment. And it’s more like a pet peeve, only below 60 Hz is actually headache-inducing. Unless it’s specific circumstances (I couldn’t stand a cheap 120Hz PWM RGB strip close to a gaming monitor because I’d see “rainbows” as my eyes dash across the screen). More details in my other comments.
Very interesting! My pet peeve is glare and LEDS produce an ungodly amount of glare and I absolutely hated them in car headlights. I’ve never heard of anyone irritated by hz that high before. The more you know. Thanks for clarifying.
LEDs aren’t 50Hz or 60Hz or anything else. They’re DC devices and they don’t flicker at all if you run them on a clean DC power supply.
The issue with LED bulbs is that they don’t have clean power supplies. They have very simple AC to DC, usually a capacitive dropper. Without filtering, this type of cheap power supply produces a lot of ripple which manifests in visible flicker at the same frequency of the input AC mains power.
That just means the driver is not flicker free, not the LED board itself, and there are flicker free drivers out there but they’re just not available for the average consumer.
But visible flicker? On an LED that’s just emitting light? I’ve never seen that before. Maybe it’s a UK and Europe thing.
I live in Canada (60Hz here) and I just installed a new range hood above my stove. It came with standard recessed halogen light fixtures with LED bulbs. Rather than being fully dimmable, the switch has high and low settings. When set to low, I can definitely see visible flicker.
I also have this same style of lights above my bathroom mirror and a dimmer switch there. They also display more and more flicker when dimmed.
Ah. That’s a driver issue again. The dimmer is adjusting the voltage, and it the voltage dips too low, the LED chips don’t have enough juice to run. Hence the flickering. If there is a driver attached to your LEDs, you might want to consider a 0-10V driver or one that specifically says flicker free.
EldoLED drivers are excellent for this but costly because they’re commercial grade.
Ah connected to mains. There would be a way to add a driver in between but will require an electrician and it’s just not worth it if you can just put it to high output.
Yup. Except they flicker at double the mains frequency because they use both the positive and negative half-cycle thanks to a FULL BRIDGE RECTIFIER.
And see my other comment: it’s not unhealthy, just annoying. To be honest, I use trash-picked LED bulbs and repair them, and I don’t normally care to replace a poor smoothing capacitor. In rooms I spend much of my time, I make sure most bulbs in the fixture are low-flicker (it’s arbitrary but generally don’t get below 75%) for comfort. I’m not peculiar about light quality like CRI and matching color temperature unless it’s very obviously bad, although I do notice the circadian effects of cold white light. I do mark badly flickering bulbs though so I know not to put too many of them together unless it’s somewhere non-consequential like a cellar. I also hold my phone camera to any neutral-white E27s I salvage to find and mark true flicker-free ones because I use them while filming.
A temperature knob could be added to control the pulse width. Get this shower to everyone who designed LED lighting with PWM frequency below 100 Hz.
Fuck PWM
All my homies hate PWM
Signed: DC dimming gang
So the concerns related to LED frequencies are real?
I saw some chatter about them causing headaches, eye strain, and disturbing circadian rhythms, but I hadn’t looked further into it to see if it was legit or a “you should use red light on your balls” health influencer type of thing.
I would get headaches from watching PAL (50Hz) CRT TVs for a long time. 60Hz monitors were noticeably better, and 75 or more was good to endure all day. Modern screens don’t go blank between refreshes (except PWM-based AMOLED) so the refresh rate is mostly irrelevant unless you want to shave off a few milliseconds of latency for serious gaming (then it’s best to match the refresh, render FPS and video signal).
But as I’m walking down the street and move my eyes, I notice cheap lighting whose drivers don’t smooth the 100Hz ripple of rectified AC. Especially if they reach 0% brightness during the ripple. This applies to:
So yeah, it’s not unhealthy, especially above 60 Hz. But it’s annoying for me to look around badly smoothed Christmas lights. And if they are of different phases (this is uncommon for Christmas lights (and even impossible in most American homes because they have 180° aka split-phase 240 V, not 120° 380 V) but always the case with multiplexed displays), I say a long rolling R to vibrate my face and see them wiggle.
Wait, I’m a specialist lighting designer and i haven’t heard about this < 100hz LED is bad stuff. From my experience, frequencies at around 50hz or lower is what usually causes eye strain/headaches etc.LEDs are typically 60hz.
I’m guessing the >100hz crowd just need to go outside and touch grass for a few hours a day.
Has to be 8k 240fps grass, though.
Poorly made LEDs actually flicker at 120Hz on 60Hz mains, see my other comment. And it’s more like a pet peeve, only below 60 Hz is actually headache-inducing. Unless it’s specific circumstances (I couldn’t stand a cheap 120Hz PWM RGB strip close to a gaming monitor because I’d see “rainbows” as my eyes dash across the screen). More details in my other comments.
Very interesting! My pet peeve is glare and LEDS produce an ungodly amount of glare and I absolutely hated them in car headlights. I’ve never heard of anyone irritated by hz that high before. The more you know. Thanks for clarifying.
50Hz is what you’ll find in the UK and Europe.
LEDs aren’t 50Hz or 60Hz or anything else. They’re DC devices and they don’t flicker at all if you run them on a clean DC power supply.
The issue with LED bulbs is that they don’t have clean power supplies. They have very simple AC to DC, usually a capacitive dropper. Without filtering, this type of cheap power supply produces a lot of ripple which manifests in visible flicker at the same frequency of the input AC mains power.
That just means the driver is not flicker free, not the LED board itself, and there are flicker free drivers out there but they’re just not available for the average consumer.
But visible flicker? On an LED that’s just emitting light? I’ve never seen that before. Maybe it’s a UK and Europe thing.
I live in Canada (60Hz here) and I just installed a new range hood above my stove. It came with standard recessed halogen light fixtures with LED bulbs. Rather than being fully dimmable, the switch has high and low settings. When set to low, I can definitely see visible flicker.
I also have this same style of lights above my bathroom mirror and a dimmer switch there. They also display more and more flicker when dimmed.
Ah. That’s a driver issue again. The dimmer is adjusting the voltage, and it the voltage dips too low, the LED chips don’t have enough juice to run. Hence the flickering. If there is a driver attached to your LEDs, you might want to consider a 0-10V driver or one that specifically says flicker free.
EldoLED drivers are excellent for this but costly because they’re commercial grade.
There’s no driver. These are bulbs designed for traditional halogen fixtures which connect directly to 120V mains AC.
Ah connected to mains. There would be a way to add a driver in between but will require an electrician and it’s just not worth it if you can just put it to high output.
Yup. Except they flicker at double the mains frequency because they use both the positive and negative half-cycle thanks to a FULL BRIDGE RECTIFIER.
And see my other comment: it’s not unhealthy, just annoying. To be honest, I use trash-picked LED bulbs and repair them, and I don’t normally care to replace a poor smoothing capacitor. In rooms I spend much of my time, I make sure most bulbs in the fixture are low-flicker (it’s arbitrary but generally don’t get below 75%) for comfort. I’m not peculiar about light quality like CRI and matching color temperature unless it’s very obviously bad, although I do notice the circadian effects of cold white light. I do mark badly flickering bulbs though so I know not to put too many of them together unless it’s somewhere non-consequential like a cellar. I also hold my phone camera to any neutral-white E27s I salvage to find and mark true flicker-free ones because I use them while filming.