Wednesday, April 29, 2009

I go Green LED Lighting at Home!


I have been searching the whole Ap Liu Street, and shops nearby West Kowloon Centre, finally I found one shop "Cosmos Telecom" at G/F 169 Ap Liu Street. They have all kinds of LED that I am looking for, and they are not the same stuff as the street store and you may not find them tomorrow.

The Shop keeper, likely the shop owner, he told me they make their own LED light bulb using Luxeon, K2 LEDs!


Well, I said "show me!" He showed me reels of K2 LED, packs of Cree XRE, Packs of Seoul Opto LED. Seems that they are keen on the quality using the real good stuff!


I bought two K2 X3 3W LED bulbs, now I am testing at home. If that is OK , I may replace all in my house. Price is HKD136.00 each. They also have Philips MasterLed but it is not the same connector as we used to use in HK. So I had to give up!


This is the first step to LED illumination at home!
feverip

Tuesday, April 28, 2009

LED on shower head



The LED Shower Light is a brilliant idea. It installs to a standard shower pipe in mere minutes. When you turn the shower on, the water powers a turbine and the LED Shower Light…well, lights up! Blue let’s you know the water is chilly. When the water warms up to 89° F (32° C), the light changes to red. Now you can step in and not freeze your giblets off. And you don’t even need to turn on the light now, because your whole shower glows.
The LED shower light is available to buy online for $39.99 from Think Geek
Also available in the UK for £29.99 from Iwantoneofthose.com

LED Gadget


This is a best LED latest gadgets based on the latest technology and all future for this LED conceptual gadgets is more effective and representing best future just like best mega pixel light, sharp lighting etc. And the how various periods have you found manually walking downward dark.

Sunday, April 26, 2009

LED Die bonding Manufacturing Process

There is continuous seeking for most suitable process with commercial balance of perfomance, cost and reliability for HBLED manufacturing. As from years expierence in this LED manufacturing environment and equipement development , we have a lot understanding that there is minimum 5 common practice for LED die bonding.

Die bonding Process for LED manufacturing
1. Silver Epoxy process
2. Direct Eutectic process
3. Flux Eutectic process
4. Flip Chip G2G process
5. Soft solder process


Silver Epoxy LED Die bonding
This is the most common process as I can see 95% of the World’s LED was made by this process. As for High power LED, most of the applications are epoxy with high silver content, but the silver conent can not go up to 70%, silver epoxy can be applied by either dispensing or stamping.
Hi Power LED can have certain period of life time without degrading on th epoxy or causing epoxy delimination. However, if the LED is running at high current the silver epoxy process may not be the best.

The concern with epoxy is reliability. We have not found epoxy material that does not crack under severe temperature cycle condition for more than 1,000 hours. Although in terms of thermal conductivity, it could be quite similar to Au/Sn solder. Some LED vendors do use epoxy for attaching LED substrate onto heat sink, but they will suffer as thermal performance may not be the best due to thermal conductivity is not the highest amongst all the processes. This process is simple, cheap and easy for manufacturing. The UPH is 10,000 - 18,000. An hour for certain package.

Direct Eutectic process
The main attractions of Au/Sn process are in its excellent performance in reliability and its high thermal conductivity. The drawback is of course the comparatively high cost. Applictaion such as LED based automotive forward lighting or high quality exteriro light fixtures. This LEDs consumption volume is still limited in the luxury automobile market segment, quality and performnace are everything. That is the main reason we the industry requires highest quality standard of performance reliability will use Au/Sn Direct Euetctic Process.

The bonding time is one of the bottle neck for machine UPH typical value is 3,000 to 5,000 depending on die size, void requirement, surface roughness and the thickness of the Gold Tin layer. On the other hand, the use of Forming gas will inevitably add on the cost.

Flux Eutectic process
The problem with flux eutectic Au Sn process is the possibility of contamination of the LED lens as flux evaporates gradually. There are so called "low-flux eutectic paste" in the market place claimed by various vendors. We are still having queries on such claim. This can have a simpler process than Eutectic process machine. UPH can be up to 18,000 as Epoxy process.


Flip Chip process
A gold bump has to be made on the substrates and special plated bump pad has to be made at LED side. Flip Chip machine requires high accurcay +/- 10 microns for alignment between the die and the substrates. Due to the process may requires pick and place the chip twice for ellimilate the pick up ejection error and or using down look camera then re-pick up agan by a bond arm. This two way pick ups will slow down the machine bonding cycle time and hence lower the UPH.
Typical UPH is around 3,000-6,000. So this is an expensive way for LED manufacturing.
Only less than handful of company using this process for LED manufacturing, Typical sucessful company is Lumileds.

Soft solder process
Traditional the soft solder can be used for high power device application. Why there is no one working on LED so far? This is my question today!

The main concern with soft solder is the placement accuracy. +/-100 um seems to be normal for such process. One of the European supplier claims that their soft solder process can achieve +/- 38um @3 Sigma. This is still not good enough for the LED lighting application. Silver is much more expensive than soft solder and there is not many people using this process. As there is Blue ray absorption by the soft solder. The grey solder will not be reflecting the LED light as good as silver, its luminous efficiency is lower than Silver Epoxy,

ASM is the leader in this Soft solder process and they have and process report showing they can well control the process and able to achieve a die placement accuracy of +/-25 microns.

Cost Comparison on Die Bonding process
1. Silver Epoxy process as 1
2. Direct Eutectic process 3
3. Flux Eutectic process 1.2
4. Flip Chip GGI process 4
5. Soft solder process 0.8

Apllication comparison
1. Silver Epoxy process 85%
2. Direct Eutectic process <1 3.="3." 4.="4." 4="4" 5.="5." 7="7" br="br" chip="chip" eutectic="eutectic" flip="flip" flux="flux" g2g="g2g" other="other" process="process">




feverip

Top 3 LED Automotive LED Makers




Top 3 automotive LED makers have over 50% of market
Germany’s Osram Opto Semiconductors was the largest supplier of LEDs for automotive applications in 2007 (with about 23% market share), followed by the USA’s Philips Lumileds and Japan’s Nichia (each with about 16%), estimates a report ‘The Worldwide Market for LEDs in Automotive Applications’ by IMS Research.



But, despite this, Lumileds and Nichia do not compete with each other to a large extent. “Lumileds sell LEDs mainly for exterior applications while Nichia sell mainly for interior applications,” says analyst Jamie Fox. “There are also geographical differences in the supply chain.” For example, Nichia does not sell many LEDs for automotive applications in Europe, where Osram are strong (in both interior and exterior applications).”



Osram, Nichia and Lumileds pioneered LEDs for use in daytime running lights, and are now also pioneering LEDs for headlamps. This year the soon-to-be released Audi R8 will feature a full LED headlamp, supplied by German lighting manufacturer Automotive Lighting, with LEDs supplied by Osram and Lumileds. This will be the second vehicle to feature LEDs in the headlamp, after the Lexus LS600h, which used Koito headlamps with Nichia LEDs. In addition, in December General Motors announced that a special edition of its Cadillac Escalade Platinum will this year become the first production sports utility vehicle (SUV) with LED headlamps.
The experience of these companies in this sector, and the more challenging requirements for durability and brightness of LEDs (in some applications) in cars compared with mobile phones, MP3 players and TVs, make it difficult for other suppliers to mount a challenge, says IMS. While many other suppliers, such as Toshiba, Avago and Everlight, sell LEDs into this sector, they sell fewer.



However, in the next decade, as the battleground moves from interior and rear lighting applications to the front of the vehicle, this seems set to change. Lumileds, Osram and Nichia all provide LEDs of high brightness and quality that are well suited to forward lighting applications. With a potentially large market for LEDs in headlamps in the next decade, it will be interesting to see which of the big three, or even any of their other competitors, is able to win the biggest share of the market for headlamp applications in 2008 and 2009, says IMS.
The market research firm expects the total automotive LED market to double from $650m in 2006 to $1.3bn within 10 years.

PS
Lexus LS600ih LED head lamp (low beam)
Audi R8 Hi Low beam LED head lamps

What will be Retail Price of a LED light bulb in 2014?






The LED is one of the ten greatest inventions in 20 Century, since the Invention of blue LED by Shuji Nakamura of Nichia in 1987, there would have been a great expectation that there will be colour TV using LED, LED lighting to replace the incandescent light bulb, LED illumination, LED torch, Third Brake light, LED interior light for Automobile,, Flash LED of higher instant power, Black Light Unit for LDD TV and PC Monitor.

Not Until 1990 the RGB LED was made in mass production at a much reasonable price. Now, you can LED everywhere, and every home has at least 200 LEDs....and every car has at least 150 LED now.
Now LED has drawn in million dollars of investment in order to produce the most efficient, most efficacy solid state Light with best reliability, High power LED is normally classified with a definition of being driven by 1Watt power, most of the powerful LED were manufactured by world largest player Cree, Nichia, Lumileds, Avago Liteon, Light house Edison and Osram.
They represent the best bunch of people who can product the brightest LED in the world.
Now most of the LED was made with some traditional way either place a LED chip on to a leadframe, PCB, ceramic and or premould leadframe by silver epoxy, this kind of process is dominate in the industry.

There may have 90% of the LEDs are made this way,
There is only less than 4% of the world best LED which is made by a gold tin Eutectic process. Flip Chip is only been utilized by Lumileds as they have a higher manufacturing cost due to lower UPH of high precision Flip Chip machine with high bonding accuracy +/-10 microns. And they have to bump a Gold bumps on the die surface. After the Chip is attached b such gold-to-gold process, there is a need to have underfill the chip, that underfill material service purpose of reinforce the rigidity of the bonds and to dissipate the heat of the chip.
Flux Eutectics process is quite common too in the HB LED manufacturing but the flux will definite affecting the bonds a few thousand hours of operation.

It seems everyone is working on the new ways to seeking a better manufacturing process for LED, as a LED light bulb such as Philips Master LED is 40X more expensive than a incandescent light bulb, a 30W incandescent light bulb can be just 1 dollar when we buy in quantity, A Philips Master LED is around USD40-50.00. That is a high initial cost for the household application.
A new cost effective manufacturing for LED is definite the top one prioritized project for most of the LED manufacturers and design houses.

The following is what we can find in the LED industry in 2011
A Silicon Wafer of 8” in diameter has been made with 2,000 cavities for next downstream process to place a LED chip of 1mm x1mmm using Direct Eutectic process. The Gold Ball bumping machine to bump the Gold wire on the wafer level.
A jetting pump to dispense yellow phosphor substance in a well controlled quantity at high speed of 100 units per second. After curing the silicone phosphor mixture then pass to a wafer level lens attachment with 8” diameter. At a placement of +/-15 microns, then cure it once more. Follow by singulation, test, sort and tape it on Tape and reel form.

This kind of 1 Watt LED may be sold at USD 0.90 dollar a piece… so a Light bulb of 20W will have approximately 20 pieces of such LED, and the cost of such light bulb will be around USD 20 dollar.

In 2014, when this kind of process will becoming mature, and the cost of the Light bulb will be selling in Park’n, Welcome, Broadway, Fortress, Costco and or Wall Mart with Branded 7 W LEDs at USD5.00!
feverip

LED lighting Fixtures




A new technology building design should link up with all kinds of fascinating LED lighting. LED illumination is now a routine part of architectural design.
All lighting used for illuminating built-up environments, and mood creation, colour is one of the important stimulant to the brain for attraction, creating either warm or cold atmosphere with a simple touch of a switch or remote control. Where the integration of light sources and architectural elements is critical, is archi­tectural lighting. Lighting can be functional or decorative for the purposes of creating ambience. Architectural lighting is used both indoors and out­doors. Most of those sophisticated drivers are crucial in architectural lighting. Especially outdoor architectural applications where fixtures are exposed to drastic temperature variations, LED performs better than other competing technologies, especially in cold temperatures.

Architectural fixtures are used in high-end homes and in retail environments such as malls, car parks and shopping centers.

HB LEDs and Hi power LEDs
High brightness LED is normally describing LED with Luminous Efficacy of more than 65-70 Lumens/Watt.
Most of the LED people s describing high power LED of more than 1Watt power Electrical power apply to the LED.

Except for applications that require very high lumen output, LED lighting is ideal for architectural applications that require design flexibility, that are in places where they are difficult to reach and maintain, or that require color. White light LEDs, however, have not produced enough lumen output to make them competitive with many general light sources other than as accent lights. Since 2006, most of the top LED technology leaders Cree, Nichia, Avago, Lumileds, Osram, Toyoda Gosei, Sharp and Citizen have been spending tremendous effort in producing high output LED, made a lot of patents of new process and material, breakthrough in producing more reliable cost effective LED with new aged manufacturing equipment. Thanks to the LED equipment suppliers that go in par in supplying the sophisticated assembly equipment with High UPH die bonder. The UPH has been treble in ten years and die placement accuracy is attaining the IC assembly class of 10 micron range.

In 2008, many high-brightness white LED fixture manufacturers have been beginning mass manufacturing. Depending on the investment climate in 2009, if the planned capacity creation takes place, LED lighting fixtures are likely to offer feasible energy-efficient alternate solutions.

Solid State Lighting using LEDs
Solid-state lighting offers options for single or multiple colors, including color changing. With digital multiplex controllers, it is possible to make light dance to music. This combination of digital media and lighting has led to new disciplines, so called architainment and mediatecture is bringing buildings with more functional and at the same time, stylish. The illumination is both interactive and con­trollable. The color-changing fixtures offered by the participants in this market require some customization and an investment in the control infra­structure. Since the lumen output of LED white light is not quite adequate for high-intensity white light applications, the most popular LED fixtures for architectural lighting are wall washers of different colors or in color-changing configurations, accent lights, path markers, steplights, and linear fixtures for cove lighting. The high-intensity color light applications are also possible with LEDs when a beam of intense saturated color light can light up walls as high as 400 feet. The efficiency and lumen output of cool white LEDs improved in 2007−2008, and white spotlights are used for accent lighting.

Market Trend
The LED illumination market in architectural applications is domi­nated by early adopters. Less than 5% of the potential architectural applications being specified in 2006 used LED fixtures. Around 9% in 2007, 14% in 2008. By 2012, Estimated almost 30% of the potential applications will have converted to LEDs.


Typical solid-state architectural lighting fixtures include:
· Accent lights
· Corridor lights
· Cove lights
· Door light
· In-ground lights
· Floodlights
· Flexible rope lights or festoon lights
· Pool and spa lights
· Path lights
· Steplights
· Spotlights
· Striplights
· Wall washers


Lighting Design
LED Lighting application has been elevated to being a chapter of architectural design. Although once considered a luxury, LED lighting design is now a routine part of architectural design. The building facade can become an interactive light source to reflect the mood, the weather, the occasion, a style, landmark, an Attraction and a unique presence in a crowded urban environment. Lighting using LED is not an industrial scale until recently that the LED manufacturing facilities become a cost justifiable level as the equipment is having the t output per dollar.

LED City
Lighting provides an added dimension of nighttime experience to architecture. Architects and city managers are aware of the importance of lighting to the image of a place to attract tourists and businesses. As cities vie to improve the business climate, lighting enhances the appeal of the urban environment. The urban look at night is an important aspect of this effort. Thus, many large architectural lighting projects are undertaken by local government agencies. There are a few LED cities which is not juts a gadget but also a true new way to promote the latest techimlogy to be adapted in the every day’s application. With Support form the LED makwers and local Government, these are the typcal LED City Raliegh, TianJin and Toronto.
In major municipal building exterior illumination, Car park, Traffic lights, street lamps are mostly been replaced with LED lamps.
Previously, large projects were beyond the scope of LED lighting, especially in applications requiring large lumen output. As LEDs have gotten brighter, especially since 2005, these projects have been within the purview of LED applications.

European Government influence
On December 8, 2008, EU Member States' experts endorsed the European Commission's proposals for a regulation progressively phasing out incandescent bulbs starting in 2009 and finishing at the end of 2012.The regulation (scheduled for formal adoption by the Commission in March 2009) targets lamps typically used in households - in particular incandescent lamps, halogen lamps and compact fluorescent lamps (CFLs) - by setting minimum energy efficiency and functionality requirements.Beginning in September 2009, all non-clear (frosted) incandescent lamps and all clear incandescent lamps at 100W and above will effectively be prohibited from sale. The staged phase-out process will then remove lower-power incandescent from the market as well.

An EU document entitled "Phasing out incandescent bulbs in the EU - Technical briefing" describes LEDs as "a fast-emerging technology, whose efficacy competes with that of CFLs. However, LEDs for room illumination are today only in the first phases of commercialization, and rare are those that fulfill all the expectations of the consumers in terms of light output and other functionalities. They are likely to become true alternatives to CFLs very rapidly."In the meantime, however, CFLs are the forefront the EU's plans to enhance the adoption of energy-efficient lighting.

The EU's decision has been applauded by the European lighting giants Philips and Osram, the world's two largest lighting companies.The effect of the EU's decision on LEDs is yet to be determined. On one hand, it could accelerate the adoption of LED lamps as customers look for energy-efficient lighting products that do not have the same deficiencies as CFLs.However, LED lamps in general have not yet reached the necessary price-performance point to compete effectively in the market. Pushing inferior or expensive products into the market could create a negative perception among consumers, which could be difficult to shake off. Nowadays a good quality LED replacement light buld is in the range fo USD50.00, and we seea lot of White BOX LED makes having their prodict selling in the range ot USD10.00, we do not know how long it could last and how fast the LED will be aged and losing their lighting performance over time.Another factor is that CFLs will be forced to improve rapidly, in turn reducing the advantage of switching to LEDs, although most people agree that LEDs will be the solution for most lighting applications in the longer term.

US Government influence
In US, it is suggested in 2012-2014 to phase out 40W-100W incandescent bulbs.
There is an act called Energy Independence and Security Act (EISA).
In EISA 2007, it doesn’t mean phasing out incandescent lamp but phasing in min. lighting requirements around amount of light delivered per unit of energy consumed. For the same lumen output, the minimum requirements represent a reduction of 25% over the incandescent technology in use in 2007.
If this rulemaking cannot produce savings that are greater than or equal to the savings from a minimum efficacy standard of 45 lumens per watt, effective January 1, 2020, then the Secretary shall prohibit the sale of any general service lamp that does not meet a minimum efficacy standard of 45 lumens per watt.

Overall Luminous Efficiency
Incandescent lamp is having Luminous Efficacy of 0.7%-5.1% depending on the design and wattage of the light bulb, Fluorescent light is having a much high efficiency such as 9-26W compact Fluorescent lamp is 9-11%. However, LED is in the range of 20-27% which is two time higher. Well, the technology is non-stopping, thousands of scientists are seeking on numerous way to increasing the lighting Luminous efficiency by employing the following improvement. The target of more than 60% is not a dream one day as we can see that there is huge R&D team has been working on.

Chip material
AC LED design
Packaging technology
Chip Design
Novel Process
Thermal management
Lead frame material
CTE balance
Phosphor efficiency
Phosphor spraying
Phosphor application
Material Studies
Driver design and power supply


Market Size.
Architectural lighting is the largest application for LEDs in illumination and will remain so throughout the forecast period. The vast majority of applications to date have involved color, and color will be a continuing growth driver for LED use, but white LEDs will become an increasingly important factor in future years. The percentage of white will increase from 19% in 2007 to 62% of the total revenues in architectural applications in 2012 if the brightness and market availability of white LEDs continue their progress along the projected trajectory.

LEDs have changed the way lighting designers view architectural lighting. The availability of color and the long life of LEDs have made it attractive for lighting designers to incorporate LEDs into their designs.

Increasingly, outdoor architectural applications, such as path lights, in-ground uplights, and steplights − all low-level white light applications – will be adopting LEDs. The lower cost of ownership will drive the growth for these applications.

For the higher-lumen-output applications, two factors will affect the rate of adoption. One is the lumen output of the devices and fixtures. There are many applications that require bright white light, such as flood­lights, illuminating path lights, etc. The other factor is the energy efficiency of the fixtures – lumens per watt. The higher efficiencies, compared to alternative lighting technologies, will lower the cost of ownership in the fixture. As the price of white LEDs declines, the number of applications for architectural lighting, such as architectural spots and large-area wall washers, is likely to grow. If the luminous efficacy of LED fixtures gets better than 70 lm/W, LEDs will become competitive for their energy efficiency.


Market Structure
Architectural LED fixtures are specification-grade products with very few fixture models in volume production. Architectural lighting is not a mass market, but rather a semi-custom business in which lighting systems are often designed for particular projects. Many product ideas evolve in the process of custom projects executed by the fixture manu­facturers. The fixtures are sold through specifiers and lighting design companies. These fixtures are always sold as a part of lighting systems that include drivers, control systems, and control software. There are many resellers in the market. The resellers offer after sales services for configuration, installation, and maintenance of lighting systems. As LED technology is new, the users need a lot of education and support.

In 2007, the market for architectural lighting fixtures was domi­nated by color and color-changing fixtures. However, in 2008 there were more outdoor architectural products using white LEDs, such as path lights, steplights, in-ground recessed lamps, and bollards. These fixtures are specification-grade and are sold in the higher price range. Architec­tural lighting companies reported more sales from projects than through sales of catalog products.

LED lighting is competing with other entrenched technologies, such as incandescent, Fluorescent and HID lamps, on the basis of the cost of the light fixture as measured in terms of lumens per dollar. In applications where color and color changing is an important issue, price per lumen may not be the most important criterion. Between the different LED fixture sup­pliers, the design of the fixture differentiates the competitors. LED archi­tectural lighting fixtures have very little esthetic design component except for path lights, bollards, and some accent lights. However, the engineering design and reliability of the fixture is a competitive issue.

Lighting Fixture Players
In North America, Hubbell, Genlyte, Acuity, Cooper, Cree LED lighting solutions and Juno had a few low-key LED product introductions. The companies would like to introduce products that can have a wide range of market appeal. All the companies have started R&D efforts and have collaborated with LED start-ups for technology and will be seriously considering entering this market in the near future. Color Kinetics (now Philips Solid-State Lighting Solutions), a dedicated LED company, is the largest player in the market and was bought by Philips, as was TIR. Color Kinetics, the leader in architectural color and color-changing fixtures, sells fixtures to end users and light engines to OEMs. The rest of the market consists of smaller companies such as Permlight, Lighting Science, and Nexxus.

In Europe, Zumtobel Group is the largest lighting fixture supplier, but it produces just a small volume of LED architectural lighting products, mainly in the form of accent lights and small spotlights. The other major players in this market are Artemide, ERCO, i-Led, Targetti, iGuzzini, Space Cannon, Martin Professional and Spectral.

Reference: Architecture Lighting companies
http://www.lightingdirectory.com/sub-cats/id/1/architectural-lighting

Sunday, April 19, 2009

Osram is claiming a record for luminous flux and efficacy from an LED driven at 350 mA.


Osram said that its development engineers have achieved new records for the brightness and efficiency of white LEDs in the laboratory July 2008
Under standard conditions with an operating current of 350 mA, brightness peaked at a value of 155 lm, and efficacy at 136 lm/W.
White prototype LEDs with 1 mm2 chips were used. The light produced had a color temperature of 5000 K, with color (x,y) coordinates at (0.349, 0.393).


As shown in the graph, the LEDs can be driven at 1.4 A, and produce up to 500 lm.
Osram says that the key to success was a perfectly matched system of optimized chip technology, a highly advanced and extremely efficient light converter (phosphor) and a special high-performance package.


Rüdiger Müller, CEO at Osram Opto Semiconductors, commented: "It was the successful combination of Osram know-how in different fields that led to these new records in efficiency and brightness. Starting with the light converter we will be gradually moving the new developments into production." Osram says it has already applied for patents for the technologies that lie behind these records. That was July 2008, 4 months later Cree had an annmouncement


Cree R&D achieves 161 lm/W for high-power LED (20 Nov 2008)
Although not available in production LEDs, this level of performance indicates LED technology has still not reached its peak.


Cree, the US-based manufacturer of LEDs, LED chips and lighting fixtures, has reported its latest “hero” result for a high-power white LED.


The white LED, containing a 1 x 1 mm chip, had an efficacy of 161 lm/W, which is the highest value reported in the industry to date.


The device had an output of 173 lumens, and a color temperature of 4689K. The tests were conducted under standard LED test conditions (meaning an instantaneous rather than steady-state measurement) at a drive current of 350mA, at room temperature.


It is crucial to remember that this level of performance is not yet available in production LEDs. However, Cree says that it is shipping millions of 100+ lumen lighting-class XLamp LEDs.

source:LED magazine

Sunday, April 5, 2009

Torre Agbar Tower


The Torre Agbar, or Agbar Tower, has been designed by French architect Jean Nouvel. It opened in June 2005 and it was inaugurated officially by the Kings of Spain on 16 September 2005.


The Torre Agbar is a colored lighting illuminate skyline that pretend to become one of the 21st century landmark of Barcelona. The building is characterized by its nocturnal illumination: it has more than 4,000 luminous devices that use technology LED.


A total of 4,500 L3 RGB lights were installed to illuminate the 32 floors of offices in the Agbar tower. The lighting system, which contains 4,500 L3 RGB lights, is controlled from a single computer.


Jean Nouvel wrote on this project: “This is not a tower, a skyscraper, in the American sense. It is a more an emergence, rising singularly in the center of a generally calm city.


Unlike slender spires and bell towers that typically pierce the horizons of horizontal cities, this tower is a fluid mass that bursts through the ground like a geyser under permanent, calculated pressure.”via: glass on web & blog wiredPhoto: LedsMagazine.com Don’t miss Agbar Tower photo set at Flickr


Canon's Oterprise Square Skyscraper in HK




Mar 09, 2007 - The Canon Corporation occupy a prominent Kowloon skyscraper called Oterprise Square and have just installed the very latest Laservision LED technology so the building can participate in Hong Kong's Symphony of Light Show.



Artificial light accounts for almost one-fifth of the world's electricity consumption. This is substantially more than the output of all the nuclear power stations in the world. Within 25 years, the global demand for artificial light is projected to be almost twice today’s level as the developing world moves towards western living standards.



A shift in global climate trends and an international focus on sustainable energy has seen high rise buildings around the world favouring energy efficient lighting design as a means of retrofitting structures for modern times.



Lighting practices employed by the industry in the early 2000’s are already well outdated due to constant technological advancement. Being at the forefront of the architectural lighting industry, Laservision is forging a new evolution of efficient lighting design to cater for this dynamically evolving market.

CCFL lighting tube for Hopewell Centre



In September 2004, Laservision's Simon McCartney contacted Peter Kemp, MD at Coemar De Sisti Australia, to discuss a conceptual lighting proposal for the Hopewell Centre in Hong Kong.

Simon's interest was sparked after seeing a linear LED tube which CDA had been developing in association with an Asian manufacturer. In line with the unique designs for which Laservision are renowned, Simon needed the LED to be more interactive than simply providing illumination, taking advantage of the individual addressability of the LED modules and the advanced control features being built into the product.


This, he reasoned quite correctly, would allow the system to feature text and graphics as well as providing enhanced illumination for the building. As part of the overall concept, Laservision also wished to include high powered YAG laser facilities into the overall design theme.

I have been there to watch, seemed that they are not LED, but CCFL! I have to further verify it.

Solar LED


Solar - LED street lighting is able to achieve excellent lighting performance with a long lifespan even in a variety of challenging environments. The latest HB LED from OSRAM and cutting edge thermal management from SoftRay are key elements in this achievement. OSRAM's GOLDEN DRAGON LEDs have effectively optimized the average illuminance and uniformity.


With thermal management expertise and industrial design know-how, SoftRay has incorporated the latest heatsink technology into the luminaire, which offers not only powerful thermal management performance but an attractive, modern appearance and the ability to withstand strong winds and snow loads.A high conversion-efficiency controller designed by STMicroeletronics is responsible for the solar module charging management and driving the LED.


The controller stores the energy gathered by solar module during the daytime. A dedicated MPPT algorithm, which is real-time operated by the controller, ensures that the battery is always charged in the most effective way.


At night, smart ambient light sensing technology triggers the driver and the LED street light is switched on. Also fitted with full electrical protection, the controller delivers a high degree of reliability for the entire system, which can be further upgraded/enhanced to a street light monitoring and remote control system.


The clean nature of solar energy as well as the high efficiency and long lifecycle of the LEDs mean that the Solar - LED street light system achieves remarkable savings in electricity compared to conventional street lighting (e.g. mercury vapor lamps). It therefore significantly reduces greenhouse gas CO2 emissions.



Solar LED has the following advantages:
Energy Saving
Long Life span 50,000 hours ( 20 years say if we run for 8 hours at night)
Programmable lighting will intellgient control system
Good Industrial design
feverip

Faucet LED lighting



Available in Amazon.com. LED faucet that adds on fun and to you water supply. USD13.00 approx.
Feverip

Friday, April 3, 2009

Osram LUXpod and LUXCAP


A LED Glass pad and Bottle cork with Lighting that can change it itself.

Osram LEDBUG

An Osram Design LED that can be inserted under a drawer, shelf for automatic switching on!


Osram Dot-It LED




A creative LED designed for versatile application, can be stuck on wall as decorative light!




Made with Osram LED, a Revolution design of German Technology.
feverip

Osram LED application


SpyLux is a LED lighitng with a motion detction fucntion for automatic On Off Control. It will be off 12 secons after Object is left.

A flexible lighting made with Osram LEDs
feverip