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Taiwan Start-up Ubilux Orders Aixtron MOCVD Systems
CompoundSemi News Staff
May 27, 2008...Ubilux, a an LED making optoelectronics startup of Taiwan, has reportedly ordered several Aixtron Planetary Reactors and Close Coupled Showerhead (CCS) Crius systems. Aixtron says it will deliver these in stages until the end of the year. Ubilux recently had held the groundbreaking ceremony for its new LED production fab which is planned to be operational within six months. Aixtron says that Ubilux will use its new reactors to help manufacture of ultra-high brightness (UHB) LEDs using compound semiconductors including AlInGaP for red, yellow LEDS and GaN for blue and green LEDs.
Dr. Henry Chen, president of Ubilux commented, “My colleagues and I on the Ubilux board together with our investors have ambitious plans for success in LEDs. We have our sights set on the booming market for solid-state backlighting applications including digital cameras, mobile phones, LCD monitors and televisions. Aixtron has the best reputation for equipment, service and process know-how so we chose to equip ourselves with multiple Aixtron systems knowing that together we will proceed rapidly to production.” Aixtron News Release
Osram Opto Semiconductors Introduces Ceramos Reflector LED for Light-Guide Backlighting
LIGHTimes Staff
May 22, 2008...Osram Opto Semiconductors of Santa Clara, California USA, has introduced the Ceramos Reflector LED for backlighting mid-size (5”-20”) LCDs. According to the company, the Ceramos Reflector LED offers high brightness and power in a very small package. The company notes that the LED is specifically designed for light guide-based backlighting of displays in high ambient light conditions, such as those found in today’s TFT displays, automotive dashboards and aircraft cockpits. The Ceramos Reflector LED boasts a slim profile is ideal for in-coupling into light guides as thin as 2 mm. The company points out that this feature also makes the LED perfect for edge lighting for LCD TVs and monitors. LIGHTimes SecondPage members login for more. Guests can view membership details.
Sony, Sanyo, Exceed, and Lucky Light to License Technology from Neumark Rothschild
CompoundSemi News Staff
May 27, 2008...Columbia University Professor Emerita, Gertrude Neumark Rothschild again appears to be on the winning side as another group of companies agrees to settle with her in her patent dispute against 31 companies brought before the U.S. International Trade Commission. Two Goliaths of consumer electronics, Sony Corp. and Sany Electric Co. Ltd., and lesser known companies, Lucky Light and Exceed, have reportedly agreed to license the patented technology from Rothschild. The technology is a basic component in the production of Blu-ray video players, violet laser diodes, violet LEDs, mobile phones, and digital cameras. Details of the agreements were not released. Seoul Semiconductor Co. Ltd, a maker of LEDs, and Taiwan's Everlight Electronics Co. Ltd. signed licensing agreements with Professor Neumark Rothschild. According to her legal council, Professor Neumark Rothschild conducted groundbreaking research in the 1980s and 1990s into the light-emitting diodes (LEDs) and laser diodes crucial to a many consumer electronics products.
While the Rothschild has made significant progress in the lawsuit, the fight is far from over. The Professor Emerita’s complaint to the ITC seeks to block the imports of infringing products, including video players using Blu-ray format, Motorola Razr phones, and Hitachi camcorders, as well as products containing blue, green, violet, ultraviolet, and white light emitting diodes and laser diodes. Other companies named in the suit reportedly include Hitachi Ltd., Matsushita Electric Industrial Co., LG Electronics Inc., Nokia Corp., Samsung Group, Sharp Corp. Sony Ericsson Mobile and Toshiba Corp. Dreier LLP News Release
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Taiwan Start-up Ubilux Orders Aixtron MOCVD Systems
CompoundSemi News Staff
May 27, 2008...Ubilux, a an LED making optoelectronics startup of Taiwan, has reportedly ordered several Aixtron Planetary Reactors and Close Coupled Showerhead (CCS) Crius systems. Aixtron says it will deliver these in stages until the end of the year. Ubilux recently had held the groundbreaking ceremony for its new LED production fab which is planned to be operational within six months. Aixtron says that Ubilux will use its new reactors to help manufacture of ultra-high brightness (UHB) LEDs using compound semiconductors including AlInGaP for red, yellow LEDS and GaN for blue and green LEDs.
Dr. Henry Chen, president of Ubilux commented, “My colleagues and I on the Ubilux board together with our investors have ambitious plans for success in LEDs. We have our sights set on the booming market for solid-state backlighting applications including digital cameras, mobile phones, LCD monitors and televisions. Aixtron has the best reputation for equipment, service and process know-how so we chose to equip ourselves with multiple Aixtron systems knowing that together we will proceed rapidly to production.” Aixtron News Release
Sony and Idemitsu Jointly Develop OLED Which Achieves 28.5 % Efficiency; Sony Invests About $210 Million to Refine OLED TV Technology
LIGHTimes Staff
May 22, 2008...On Monday of this week Sony Corp and Idemitsu jointly developed what they claim is the highest luminous efficiency OLED used in OLED televisions, according to an article in Nikkei Net. The companies reported achieving 28.5 percent internal quantum efficiency for the OLED.
In related news, Sony Corp.announced Tuesday that it will invest about 22 billion yen (about $210 million) to speed the development of technology for larger and higher-definition organic electroluminescence (EL) panels, according to a Nikkei Net article. Sony indicated that it would revamp its manufacturing facilities for organic EL panels in the second half of fiscal 2009. According to the article, Sony says that it expects organic EL technology to expand the applications for audiovisual equipment such as televisions.
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News for the supply chain and questions from an end user
Tom Griffiths - Publisher
May 14, 2008...We're just back from the recent Blue 2008 LED supply chain conference that was held last week in Hsinchu (aka "LED-town") Taiwan, and with the 13-hour time change, we're compensating for creative-thinking gridlock by covering two distinct topics this week. We're often asked why LEDs can't simply just be made cheaper by taking advantage of what we know from silicon-based semiconductor manufacturing, and the the supply chain update will cover some of those concepts. We'll share the update at a bit of a primer level to help the readers that live more at the application or fixture level to maybe better relate to some of the challenges going on "down below".
Supply chain is alive, well and attacking costs
We'll likely share more about what we heard from an incredible line up of "power speakers" at Blue over the coming weeks, but when it came to the supply chain, an overriding theme this year were updates on options to continue to drive the costs out, as well as increase the overall throughput for the LED industry. Kyma Technologies CEO, Keith Evans, shared some thoughts with regard to ways to drive cost out of the epitaxial processes (basically analogous to properly matching and spreading the sauce on a pizza... differing materials in the substrate ("crust") and epitaxy ("sauce") create defects in the epitaxy that will compromise the ability to maximize the number of LEDs on a wafer (let's say that the pepperoni is only edible when it has been cooked on a perfectly smooth area of the sauce"). It's a 5-10 hour epi processing time, in which less incompatible layers are laid down progressively to lead in small steps to the final gallium-nitride (GaN) layers that the individual blue LED circuits can etched on (blue being the primary color underlying most white LED solutions today). In the process of innovating a way to produce a substrate that is extremely compatible, but currently $5K to $10K for a 2-inch wafer, they found a cost effective way to do those intermediate layers and trim roughly 20-40% off the processing time at costs at that stage, as well as increasing throughput by 30-70% which translates to more LEDs on the same equipment, and therefore less capital expense loaded up into the price.
Similarly, the CTO of Australia's BluGlass, Scott Butcher, shared the status of their new processes that produce that useful and consistent GaN layer on top of glass. It would appear to be cheaper and immediately scalable to larger diameter wafers. The move from the current 2-inch wafers to 4- or 6-inch wafers greatly increases the number of LEDs you can get from single processing run (the old pi times the radius squared thing as it relates to the amount of surface area you have to work with, and therefore less useless edge space, less handling equipment, etc, etc). Oleg Kachalov of Russia's Monocrystal shared a development path for using their sapphire starting substrates (by far the coolest, shiniest material amongst the sponsor showcase displays) in 4- and 8-inch processing systems. Sapphire represents the starting point for 80% of the high brightness LEDs out there, so the move from 2 to 4 to 8 inches represents the most apparent version of a future that ultimately drives the material and processing aspects of the LED costs to a fraction of what they are today. Key to that is the consistency and crystal uniformity in that substrate (bumpy crust leads to inconsistent sauce application, which ruins more of the light-emitting-pepperonis). Monocrystal claims it is able to get the same level of surface quality in the 4- and 8-inch substrates as it has been getting from the 2-inch models. Paraphrasing what Cree's Director of SSL Business Development, Mark McClear, shared with us in February, "2008 is the year we really begin to drive the costs out of the LEDs so they can get into all the applications they belong in."
End users encounter more sophisticated technology, more sophisticated terminology.
It was a fun call from a nice guy who is an electrician in the mid-section of the US. "I'm working with a contractor who's specifying these $75 LED replacements for fluorescent tubes and I'm trying to figure out what some of this terminology means, can you help me?" Hadn't even thought of making it an editorial discussion at the time, so this was just for fun, and it definitely got us thinking. Many of our spec sheets and discussions in the solid state lighting industry are at the more technical lighting level where beam angles and color rendering (CRI) are commonplace. But not every LED-based lighting installation is going to be conceptualized and specified by a lighting designer. Builders and electricians are in on this deal two. I'm confident that the recessed fixtures or kitchen overhead in our last house weren't reviewed by anyone but the builder. While he may have been experienced as a builder (although naming the company "Waterloo" was apparently an experiment and the company lived up to it's name... exiled much like Napoleon), it's doubtful he carefully researched all the fixture options to choose one with specific radiation angles or "lux on the target" values.
The questions seemed kind of basic, since they are so important to understanding the characteristics of one LED lighting module or luminaire compared to another. Beam angle? My reply, "Hold your arms up in front of you in an A-frame shape and touch your middle fingers together. Now move your elbows in and out. The fluorescent fixture uses the sheet metal to vary how broadly or narrowly the light is cast. LEDs control it right there in what you would call the bulb." Lumens seem less than for the standard 40-watt tube; will it give me as much light? "In general, the LEDs can do more with less since they should only be generating light in that beam angle. The tubes you are used to have to bounce the majority of their photons off the reflector and you lose as many as 2/3 in the process, depending on the fixture." It says it's a cool white and says 5500, can we get warm white as well? "Manufacturers usually offer a range of 'color temperatures'. The trade off with LEDs are the warmer the light, typically moving from 'cool' at 5500K (for Kelvin) to 'warm' at something near 3300K. I'm noticing fluorescents seem to have the color temp labeled on them at least some of the time, so if you're not sure of what you want, try some of those tubes to see what fits the environment. There's also a pesky thing called CRI for 'color rendering index'. Above 90 is good, and less than that you need to see if it looks ok for what you're trying to do."
How do I know these are saving me energy? "Ouch, good one. The simple answer is comparing lumens per watt. Your big fluorescent tubes typically run up to 80, so that's sort of the benchmark. The tricky part is 'useful lumens per watt' or 'effective' ones, since LEDs point all the photons where you need them to go, while fluorescent tubes scatter a good chunk of them. There will be some more standards, like EnergyStar or SSLITA's planned labeling initiative, that will start to be helpful for this, but things are kind of wild and woolly out there right now, and while I can assure you that if you buy it for cheap, you'll get cheap, I can't assure you that if you pay a lot, you'll get a lot. Check the warranty, figure out if the manufacturer is going to be around to honor it, and definitely insist on seeing how they look in a real world setting before committing to purchasing a ton of them." Are these really ready for what we're planning to do with them? "My belief is that they at a place I'd call 'barely ready'. As long as you are making sure you're getting 'lighting-class LEDs', that the LED manufacturer is backing up your fixture supplier, and understanding that 6 months from now, you'll be looking at stuff that's substantially better, I'd say go for it. It takes a while to build a building and the experience you'll have from sorting out the good stuff from the junk will position you as a leader and you'll only spill a little blood." Yes, it's risk versus reward once again...
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