From what I'm seeing it's cool-white LED technology that's failing in the retail market, and I'm seeing an explosion of better quality retrofits all using neutral and warm-white emitters. Initially cool-white LEDs were the first exposure most people had to working under LED, and that has lead to a big backlash against the industry.
Don't forget though you're talking about 8000K-10000K "showerhead" lamps using cheap LEDs. This is quite different from the 5000K or so I'm talking about.
Initially a lot of people bought 6500k CFLs because they had a lot of flashy marketing, then took them down when their spouse started making threats.
Same problem as the aforementioned LED lamps. Lack of quality control or standards meant so-called 6500K was either 8000K in reality, and/or so far off the blackbody curve that it was strongly blue-tinted even if it was 6500K according to a spectrometer. True 6500K, mostly from linear tubes, isn't that bad. CFL quality control though is atrocious compared to linear tubes. Sure, 6500K is a big jump from 2700K incandescent, so they might be some getting used to. In the end though if you're used to daylight it's not as bad as you make it out to be. Of course, if people won't even give it a chance...
People work all day at the office under 4000-5000k light meant to stimulate productivity, and when I get home I want to relax.
My take on this is a little different. If I'm home and need anything more than a nightlight on, it generally means I'm doing some task requiring artificial lighting. As such, I want light conducive to seeing well, which is generally higher CCT. If I'm relaxing, that either means I'm watching TV or in bed. In both cases I simply just turn the lights off. No need in my book for low CCT lighting because some say it's "reflexing". Frankly, I find the opposite to be true. When I can't see well because colors are distorted to hell, I find it stressful. I certainly understand the need to have decent CRI ( or whatever new metric eventually is used in its place ), but good CRI and higher CCT aren't mutually exclusive. The big problem with low CCT lighting is the lack of a true white point, plain and simple. You can't tell looking at a white object whether it's white or yellow.
We both agree that a high CCT, high CRI emitter are needed, but it doesn't look like the industry seems that interested. Once you mix in enough red and amber to get a +90 CRI your lumen efficiency gets murdered anyways.
Look at
this post. High-CRI cool white gives you about a 30% lumen decrease relative to low-CRI cool white. The penalty for high-CRI gets worse as the color temperature decreases. Also note how much efficiency gets murdered reducing CCT
even without increasing CRI. It's a shame the industry isn't much more interested in high CRI and high CCT. In a sense, they could have their cake and eat it too, at least compared to the alternatives. I'm still waiting on a new metric to measure color accuracy which will hopefully take both CCT and spectrum into account. That might be the push needed to make high-CRI, high CCT LEDs ( these would be more efficient, and likely also do better under the new system compared to high CRI neutral or warm emitters ).
Plus, what the industry calls 'warm white' in terms of LED is usually around 3500k with some pink in it. I've never seen an LED with the same color as an incan.
SSC has 3000K high-CRI LEDs. Also, I think GE has aimed for 2700K in their latest LED screw-base lamp discussed in another thread. If the LED industry had stopped at 3500K then frankly I wouldn't be as vocal in my complaints as I am. 3500K still has a steep efficiency penalty, but asthetically at least it's tolerable to me ( barely ). 3000K and especially 2700K just isn't. The problem isn't where I live as I can likely find or make any type of light I like, but rather if I visit others ( my brother for example ). Can't standing sitting under the damned incandescents he uses. You're talking
major headaches.
Off topic jtr, but are you using a spectrometer for your LED tests? I have somebody building me a custom 10watt 440nm LED, and I need somebody to test it. I'll take care of postage.
I'm just using a regular light meter unfortunately. I'd love to get a spectrometer, or at least a color temperature meter so I could do better than eyeballing the LEDs I test, but it's well out of my budget.
