Thin, Flat LEDs 244
An anonymous reader writes "Here's a story about how a company called OMRON has developed a totally flat light source which might give traditional LED's a run for their money." And reader ekarjala points to an article in the EE Times about thin, organic LEDs.
sooo close (Score:5, Interesting)
Re:sooo close (Score:5, Informative)
Re:sooo close (Score:2)
We don't need another area source... we need better point sources for lighting! Needing 4" of depth to diffuse light isn't a problem...
Have you ever been in a space with all indirect lighting? It's terrible! There has to be some direct component for shadow/visual interest...
emagin (Score:2)
Re:sooo close (Score:2)
Re:sooo close (Score:2)
Re:sooo close (Score:2)
Re:sooo close (Score:2)
Slashdotted already (Score:5, Informative)
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Omron Corporation (Headquarters: Kyoto; CEO: Yoshio Tateisi) has announced the development of "flat light source" technology aimed to become a new form of LED illumination.
Employment of LED's in such applications as train car brake lights, signals, and displays began in recent years from the viewpoint of energy consumption and in the not-too-distant future they are expected to displace current lighting sources in the average household. The challenges of this kind of LED illumination are considered to be further improving LED brightness and realizing performance comparable with the price.
Incorporating characteristics of low-profile/large surface area/uniformity not found in lighting sources up until now (light bulbs, fluorescent lamps, present LED's), Omron has developed "flat light source" technology. Taking full advantage of its small size/long service life, features inherent to the LED, the "flat light source" will be positioned to realize future unrestricted illumination such as "wall-mounted light" and "portable light."
Using light wave control technology of the currently marketed DR-LED as a base, a precise optics design was implemented for optical beam dispersement to compartmentalize more space, and by doing so increasing the amount of surface area. The light emitting surface area is 30mm x 30mm with a thickness of 6mm, giving it about 50 times more illumination surface area than a typical bullet-type LED of the same thickness. If a bullet-type LED were to be created to match the same amount of illumination surface area, the thickness would have to be between 1/10th and 1/5th greater. Moreover, this technology mixes three colors (blue, green, red) into a single "flat light source," thus making any color possible, something that has proven to be very difficult for light bulbs and fluorescent light.
The scope of applications for the "flat light source" include those which the LED has already advanced into such as train car brake lights, signals and displays. Combining several "flat light source" units together creates enough illumination for wall-mounted light or portable light and its compact size makes it ideal for narrow locations like walls and columns. Plus, color can be freely adjusted making it a truly full color lighting source.
Hereafter, Omron will accelerate the move toward illumination by the low energy consumption contributing LED, and with this newly developed technology as a base, strive to bring the "flat light source" to commercialization.
Re:Slashdotted already (Score:2, Informative)
Proprietary coating to yield thinner OLEDs
By Nicolas Mokhoff
EE Times
February 25, 2003 (2:18 p.m. EST)
MANHASSET, N.Y. -- Samsung SDI Co. has partnered with Vitex Systems Inc. to market displays based on organic light emitting diodes that the two companies claim are 50 percent lower in weight and thickness than any other commercially available display.
Samsung, which has been pursuing OLEDs volume production, will provide funding for the specialized design and engineering activities of Vitex's Barrier Engineering Program. Samsung said its goal is to explore whether the technology can be produced for encapsulation of full-color, active-matrix OLEDs.
Vitex's proprietary Barix thin-film coating is designed to enable manufacturing of thinner, lighter displays for the mobile device market, said Ho-Kyoon Chung, Samsung's senior vice president. "We believe that Vitex's Barrier Engineering Program holds the potential to be the fastest, most cost-effective way for Samsung SDI to achieve a thin-film encapsulation solution for our OLED displays," he said.
Broad adoption of OLEDs has been impeded to some extent by a key manufacturing challenge: the organic matter's sensitivity to moisture and oxygen, which can quickly destroy an OLED display if unprotected.
Vitex's thin-film technology creates a moisture and oxygen barrier that is potentially as effective as a sheet of glass, without the added bulk, according to the company. Using Vitex's Barix encapsulation, display manufacturers can deposit, in situ, a thin-film coating directly on top of the OLED material on a glass substrate.
The procedure would eliminate the need for a glued-on-metal can or extra sheet of glass. The resulting thinner, lighter display is expected to deliver higher reliability at a significantly reduced manufacturing cost.
"The Barix technology developed by Vitex has significant potential to help further propel widespread industry adoption of OLEDs, which have emerged as a promising candidate in the production of zero-border, super-thin displays," said Ross Young, president of DisplaySearch (Austin, Texas). The market research firm projects that global sales of OLEDs will grow from $112 million in 2002 to $3.1 billion by 2007.
"Working closely with Samsung SDI will enable us to create a customized solution that best suits their production needs. This will in turn allow Samsung to cost-effectively provide mobile device OEMs with extremely thin, lightweight, high-quality OLED displays," said Michael Sullivan, president of Vitex (San Jose, Calif.).
Vitex, a spin-off of advanced research laboratory Battelle Memorial Institute, has been involved in the development of Barix encapsulation for the past three years. Through its Barrier Engineering Program, Vitex said it could customize the Barix coating for the specific performance requirements of an individual manufacturer's OLED displays.
Re:Slashdotted already (Score:3, Interesting)
Re:Slashdotted already (Score:5, Funny)
OOO yeah! And 802.11b for access from my PDA! And X10 so I can turn on my lights using my Garage opener...finally a use for the other two buttons on my sunvisor!
Um, it's a light. On, off and dim are pretty much the limit of what 99.999999% of the world wants. That other .000001% can't get laid and thus don't NEED mood lighting.
(I hope I didn't just make a 'foe' there)Re:Slashdotted already (Score:5, Insightful)
So now you've got, what, three sliders? a switch and three knobs? A switch and three holes you've gotta put a screwdriver in to adjust intensity?
But that's just one plate, what if you want do adjust the ones in the kitchen as well as the ones in the living room?
Being able to set an 8-bit value for R, G, B and what-the-hell Alpha transparency would be a non-starter.
Of course, your lightswitch could have an Adobe colorwheel and an intensity slider, but then your _lights_ might cost you $20, but your light SWITCH will cost ya $250.
Ritalin? Nope, I'm not on Ritalin. I DID neglect to take my Zyrtec 'tho.
Don't throw out your CRT (Score:1, Interesting)
Nobody is considering whether to invest one penny in inferior display technology. Therefore, my message to the vendors is, if you stop production of CRTs and require the aviation community to switch to LCDs, make sure that we all get some benefit, both from the pilot viewpoint and the maintenance side. Vendors and airlines of course realize that there is no way back. There is no aircraft manufacturer that is even thinking about going back to mechanical or electromechanical technology. It would be a gigantic step backwards.
For me it would be equal to returning back to Austria in the year 1889 to help my great-, greatgrandfather repair mechanical church clocks.
Re:Don't throw out your CRT (Score:5, Interesting)
Oh. He stole it from here. [aviationtoday.com]. Give credit next time, dude.
Re:Don't throw out your CRT (Score:4, Interesting)
LCD monitors generally have less viewing quality, and of course the horrible response time, bad viewing angle, poor contrast, and fixed resolution. I havent seen that many desks that were in such dire need of desk space that they needed to settle for LCD. A guy will buy a lcd tv or monitor and tell himself that the ghosting really isnt thaaat bad, or the viewing angle doesnt bother him thaaat much. These people are just fooling themselves because LCD is really the only real flatscreen tech on the market right now.
I believe when OLEDs hit the market LCD will pretty much be useless obslete technology. OLED has a fixed resolution, true, but suffers from none of the other disadvantages.
Look at this picture. [pocketpcthoughts.com]
After seeing something that amazing from a prototype, i really dont see a future for LCD in the computing world. Maybe somewhere in the embedded arena where a non-backlit LCD would suffice, but other than that, where?
Plus if these things hit 40-60 inches..that pretty much boots plasma out the door too.
I am only worried that since OLED will junk such a big area of displays, manufactuerers will be hesitant to deploy it, or will deploy it expensively and with low supply. The good thing is i guess it only takes one company to do it right, and the prices will come crashing down.
I guess as long as the manufacturers dont jack the prices up too much, i dont see a barrier to wide spread acceptance.
Re: (Score:2)
Imagine the impact... (Score:5, Insightful)
Re:Imagine the impact... well maybe not so much (Score:3, Interesting)
I was personally hoping for something that would come of the production line by the roll and be applied like wallpaper to my walls or ceilings. Hide wiring in the baseboard moldings. Room not bright enough or the wrong color? Just turn it up . . . .
Re:Imagine the impact... well maybe not so much (Score:2)
Re:Imagine the impact... well maybe not so much (Score:4, Interesting)
Maybe they can design them in 1/16 or 1/8 inch sizes to snap together in a way that can be multiplexed. Run your lines on the horizontal and vertical edge and individually address each element in any color.
Maybe a 640x480 grid (expensive, I'm sure) of these things will be useful enough for simple gaming. But only if they change color fast enough. I'd hook a PS2 to it if I could.
auto industry (Score:5, Interesting)
the U.S. needs more phat car mods.
Re:auto industry (Score:2)
-l
Re: (Score:2)
Re:auto industry (Score:2)
Re:Imagine the impact...Lower Taxes (Score:2)
Shooting lights? (Score:2)
Ok but aren't they more expensive to buy? Wouldn't a shotgun blast destroy an array of LEDs just as easy as a big light blub? Cheaper costs per kilowatt hour of power I can see but how are they bullet proof?
Re:Shooting lights? (Score:2)
Re:Imagine the impact...Lower Taxes (Score:2)
Re:Imagine the impact...Lower Taxes (Score:5, Informative)
No they don't.
If you want red light, then red LEDs are more efficent than creating white light and throwing away the non-red parts,
but as of 2002, low pressure sodium was still the most energy efficent lighting source known to man.
I haven't checked recently, but last year the break down was something like this;
Lumens/Watt Light Source
100-190 low pressure Sodium (HID)
50-150 High pressure Sodium (HID)
60-140 Metal Halides (HID)
20-60 mercury vapor (HID)
85-95 32 watt T8 fluorescent
60-65 standard F40T12 cool white fluorescent
48-60 compact fluorescents
45-55 Super bright Red/Orange LED
35-45 Super bright Green LED
20 T3 tubular halogen
15-25 bright white LED
5-25 Halogen
17 standard 100 watt incandescent
6 incandescent night light bulb (7w)
6w incandescent flashlight bulbs
Of course, LEDs have a lot of other nice features, like toughness, long life, and a better failure mode. (They get dimmer with time, rather than suddenly burning out.)
-- this is not a
Better Link (Score:5, Informative)
And, "a company called Omron"? Have you not heard of Omron? They're just one of the biggest companies in controllers and industrial automation.
"Omron" (Score:2)
"Omlon". (hOme iLON)
Later they discovered this name really sounds stupid in English so it was changed to Omron.
totally flat? (Score:5, Funny)
Re:totally flat? (Score:5, Funny)
Re:totally flat? (Score:1)
Re:totally flat? (Score:1, Funny)
No, duh. It refers to the LACK of a curvature to a surface.
Re:totally flat? (Score:4, Insightful)
OMRON (Score:5, Informative)
Damn . . . (Score:2)
So size DOES matter more than will in some cases? This really ruins my plans . . .
Re:no more on OMRON, or? (Score:2)
Omlon.
Totally flat (Score:2, Informative)
Let's have flat *reflective* LEDs (Score:2, Interesting)
Re:Let's have flat *reflective* LEDs (Score:2, Funny)
Re:Let's have flat *reflective* LEDs (Score:2, Interesting)
JP.
Re:Let's have flat *reflective* LEDs (Score:2, Insightful)
LCD's (Score:2)
Anyhoo, you're right as well, IF these things are bright enough then they would do as well in brightly lit rooms as CRTs. Come to think of it I wouldn't care for any screen that had an overly bright light shining directly at it but it would be better if none of these things washed out in bright indirect lighting.
Finally... (Score:1)
Omron? (Score:3, Informative)
These folks have been making top notch equipment featuring the LEDs in question for ages now...
Re:Omron? (Score:3, Informative)
I think it's way cool.
Correct link? (Score:4, Funny)
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Nowhere on that page does it mention flat LEDs!
[ The Applications Thread ] (Score:2, Offtopic)
1. New aerodynamic automobile turn signal, running, and brake lights. They'll be smoothed right into the paint surface.
Re:[ The Applications Thread ] (Score:2)
Any clue? I mean, seriously, that was a good application idea for ultra-bright, paper-thin LED elements.
Re:not the modder, but (Score:2)
More information (Score:4, Informative)
NE asia online [nikkeibp.com]
omron technics [omron.co.jp]
Nice (Score:4, Informative)
Re:Nice (Score:3, Informative)
Totally flat? (Score:3, Funny)
were they expecting to be slashdotted? (Score:3, Funny)
---Information---
Due to system maintenance of our corporate web site, the search engine will not be available between February 25 and March 3. We are very sorry for the inconvenience.
New technology? (Score:5, Interesting)
Re:New technology? (Score:3, Insightful)
The EETimes article OTOH is all about Organic LED's, and looks to be the real next generation for display tech.
Re:New technology? (Score:2)
The innovation is simply to redesign the LED reflector design to reflect current trends in use.
Re:New technology? (Score:2)
Currently, the backlight on most LCDs is one or more fluorescent tubes, which are also subject to "uneven light distribution and chromatic aberration".
This technology holds the promise of paper thin backlights. Even if light distribution is
bad, they could still end up with more even light than current technology at about half the thickness.
Frankley though, I have doubts about how viable it really is.
-- this is not a
Portable light? I think I've seen that before ... (Score:3, Funny)
Wow, science never ceases to amaze me! Maybe next, they'll find a way to put lights on the ceiling, too, and, OOOH! Maybe attach a fan to it, to increase air circulation in my house! I'll have to see if Omron is developing a "flat fan technology" to make this possible.
thin led (Score:3, Funny)
Totally Flat? (Score:2)
I was just wondering what it means for something to be "totally flat". Does that mean that there is nothing "unflat" about it? Does it mean that it can be no flatter? Or, is that like "Totally Phlat, (with a - p h, man)"? Or, might it be that in this "totally flat light source" it is the light itself that is totally flat, which says nothing about the source?
Flat is relative. I have seen some "flat" leds before. You can always make a led flatter, when does it become "totally" flat?
Ok, I have beaten this to death. I started out 70% serious.
am I the only one? (Score:3, Funny)
Now who's the moron?
That's right. Me.
I'd like my walls and ceilings plastered with this (Score:2, Interesting)
But they have to become smaller than 30 x 30 mm, maybe 0,3 x 0,3 would make a good movie screen or desktop on your wall!
Kosi
what's it useful for? (Score:2)
The image at their site looks like the light is reflected back, similar to parabollical reflectors, just thinner and with some dark areas.
So, what exactly is this useful for?
Totally Flat ... Not Thin (Score:5, Informative)
flat -
1. Having a horizontal surface without a slope, tilt, or curvature.
2. Having a smooth, even, level surface: a skirt sewed with fine flat seams.
3. Having a relatively broad surface in relation to thickness or depth: a flat board.
etc.
thickness -
1.
a. Relatively small in extent from one surface to the opposite, usually in the smallest solid dimension: a thin book.
b. Not great in diameter or cross section; fine: thin wire.
2. Lean or slender in form, build, or stature.
etc.
They are talking about how FLAT the light source is not how Thick it is.
mirror 1 (Score:2, Informative)
automotive uses (Score:5, Interesting)
Flat LEDs (heck, current LEDs would be fine, really, but flatter would be better in a space-starved environment like a car) are what I want in a couple specific places in my car:
1) dashboard lights. Mine dashlights died a long time ago, and I'm using a clip-on LED flashlight to illuminate my speedometer etc. This is clunky and ugly in a way that many kids find themselves yelling at their dads for inflicting on the world, but a) dashwork is expensive and b) no joke, my LED flashlight clipped on an airvent does a *much better job* than the dashlights ever did. Granted, it's a cheap car, but still. Dashlights are lousy in most cars, though they've gotten better. But -- and I'm serious about this -- dashlights should NOT be incandescent bulbs any more. They should be LEDs, OLEDs, or some other basically permanent light source. Silly to have such a vital piece of equipment be something as outdated as an incandescent bulb, *and* be so difficult to replace (in most cars).
2) Domelight. Same deal -- domelights are generally lame anyhow, sort of like lighting a candle
3) Overhead reading lights. (For your navigator, lights that don't blind the driver.) Bright LEDs with a shade so they can't be aimed at the driver's face accidentally. (Breakable shade, so you *could* aim them intentionally when you're kidnapped for ransom and are being driven away in your own car
4) Map light -- Think of the LED "stalk" lights for notebook computers. A thin gooseneck with an integral LED for pointing at your book / map / sketchpad (not for the driver).
Bring on the flat LEDs, and send some to the car maker's *design teams* please.
timothy
Re:automotive uses (Score:2)
Heck the Pontiac econo-car they are currently selling has the coolest dash lighting I have ever seen.
Personally I want to know why the hell do we still have the mechanical pointers that are obviousally driven by the digital systems.. Give me a digital dashboard and call it done, but even today in the year 2003 it's damned hard to find any car with a completely digital dashboard.
I guess it's based on the stupidity level on the general public and their inability to comprehend numbers compared to pointy things.
Re:automotive uses (Score:2)
Re:automotive uses (Score:2)
Obviously you have never driven a car with a digital dash. Sure it sounds good, the speed limit is 55, and the numbers say 54, but in practice you have to think to realise that 54 is just less than the speed limit so you could speed up a little. (we all know you never speed, so needing to slow down isn't a problem) With a analog display you learn where the mark that indicates the legal speed for 55 is, and you can tell at a glance how far under/over the limit you are without thinking. The mind just understands it better.
As a final nail in digital's coffin, if implys more accuracy than you have. Sure the display say 55, but because of tire wear and misadjustment you are doing somewhere between 50 and 60, just based on the speedometers I've checked myself (against a GPS). With analog you learn that the pointer is a little high or low, and automaticly compensate for it, with digital it turns out you don't do that as easially.
Re:automotive uses (Score:2)
No, not at all. Just grab a screwdriver, and take out the dash yourself. Easy as pie, though there are usually lots of screws, and sometimes several interlocking pieces. I did it for one of my old cars, and the bulbs were cheap.
I don't see a problem with incandescents in the dash; there are a bunch back there lighting up the same two dials, so if one dies, I don't even notice. Besides, in my experience, those lights have been exceptionally durable, even if the car itself wasn't.
2) Domelight.
Depends
Gooseneck or clip-on lights are really the only way to get enough reading light without spilling too much light everywhere else. And you can get gooseneck lights that plug into the cigarette lighter.
When, How Much, and How Hard? (Score:2)
They're not worth much if they're not available, need lots of support circuitry or cost 100 times more than what's currently out there.
The Revolution Will Not Be Televised (Score:2, Interesting)
Thin != Flat (Score:2)
How many lumens per watt? (Score:4, Interesting)
From the fact that it's NOT mentioned I'm guessing that it's less, meaning that these are more useful for decorative applications than as a serious source of illumination.
Re:How many lumens per watt? (Score:2)
But the real trick here is that this device sends ALL of the light out over a fairly wide area and in ONE direction, using a fresnel-type reflector. That makes the device flat and relatively thin, but puts out a good deal of light over a large area. Somethingf you'ld probably need an array of standard LEDs or a (relatively) bulky parabolic reflector to do.
Of course, it's not exactly broundbreaking research. The geometric properties of Fresnel lenses has been known for a long time. This is just an example of a good, easy idea that everyone has just overlooked until now.
=Smidge=
so has... (Score:2)
odd (offtopic -1) (Score:2)
I had to reread the begining because I thought totally flat was 2d and my mind couldn't wrap itself around 2d light. How am I going to see it?
old concept, new package (Score:2, Informative)
Wearable Displays... (Score:5, Interesting)
The display technology involved a single strip of extremely high density LEDs packed together in a line, and a vibrating mirror that would scan back and forth as the LEDs blinked to make a picture. Neat technology. Very high contrast, readable in high light conditions.
I spent a year or two hoping they'd come back, but no =:-( They're gone, and _just_ before I managed to get my hands on one.
Re:Wearable Displays... (Score:2)
Electroluminescent are flat. This isn't. (Score:2)
Re: (Score:2)
"truly full color" (Score:3, Insightful)
Nick...
PS: I speak English English from England, so sorry if me spelling colour correctly offends you
Re:"truly full color" (Score:2)
I would wager that this "true full colour" that they're talking about would be the same "true full colour" that your monitor and TV are doing. 16.7 million colours, isn't it? AFAIK, that's far more colours than the human eye can distinguish.
To put things in perspective... I doubt very much that you can distinguish between 520.5nm and 520.55nm light. Green is green. It doesn't really matter that the thing can only display colours in increments of 0.001nm, because you'll never be able to tell the difference.
I understand your points about the extremes of the spectrum, but that's a comparatively small amount of the visible spectrum that doesn't really occur often enough to discount it.
Besides... this "true colour" they're advertising could just be in comparison to existing technologies.
A Better Link (Score:5, Informative)
Try Japan Corporate News Net [japancorp.net]
Coutesy of Google News . . . .
An even better link (Score:5, Informative)
Re:Sheesh.. (Score:2)
The article linked is not their server. I provided a link to the article on their site in another post.
MORON? (Score:5, Funny)
and I'm thinking Holy Crap their marketing team has a tough road ahead
Re: MORON? (Score:2)
Re:Sheesh.. (Score:2, Informative)
Oh yeah - this isn't a "flat LED", it's a neat little package of LED light mixer and reflector - it looks like a really nice product.
actually... (Score:1)
Re:Changing color (Score:2)
I don't think it would necessarily have anything to do with a car that changed colors, unless you built every single external panel of the car out of these light panels.
I think it would be very cool for interior lighting though. You could completely alter the "mood" of the room, liven it up with a bit more red, or subdue it with more blue.
Re:OLED problems (Score:2, Informative)
PDPs have similar problems with phospor lifetimes differing for RGB, which is why any unused portions of a PDP are sent the average of the rest of the screen's intensity so it all wears evenly.
Re:White Light LED's (Score:4, Informative)
Blue LEDs only came around when the right formulation was engineered.
They emit some ultraviolet light, which finds them an application as white LEDs when surrounded by flourescent material that fills in the rest of the spectrum.
Re:White Light LED's (Score:2)