The LED Street Lights Testing was hold in California. As we all know that high-efficiency white LED street lights will cut energy use by 30 percent to 60 percent every year.
Garden Grove is testing four 250-watt LED street lights on Civic Center Drive at Acacia Parkway, said Senior Analyst Chau Vu. Whether the city will switch over to LED will depend on how this testing goes, she said.
“In the next six months to one year, we’ll look at how much wattage these lights use up,” she said. “If it does what they say it can do, then it’s definitely worth it for the city. These lights can save a lot in terms of energy and money.”
LED lights are also easy to maintain because they last longer, Vu said. The downside is that they cost significantly more. While a regular street light costs $300 a fixture, LED lights cost about $2,000 a fixture.
LED lights are constructed with 100 percent recycled aluminum, contain no mercury or lead and do not require hazardous waste disposal handling. The city of Los Angeles is testing 100-watt LED lights.
Garden Grove was one of the first cities in the state to install LED lights on traffic signals. These test lights are manufactured by a company called Leotek and were donated to the city by South Coast Lighting.
So, if the tests prove successful, the city should do their best to change all street lights to LED.
December 22nd, 2009 | Posted in LED Other | No Comments
The yellow light-emitting diode (LED) gap always trouble Philips till now. Recently, researchers with Philips Lumileds (San Jose, CA) have developed a monochromatic nitride diode to closes the gap. The phosphor-converted (PC) amber LED demonstrated by Regina Mueller-Mach and her colleagues uses the down-conversion of blue light from an indium-gallium-nitride (InGaN) LED to longer-wavelength light by a phosphor, in a variation of a well-established process for producing cold or warm white light from blue LED light (see also “Fluorescent microspheres create white-light LEDs”).
Monochromatic light-emitting diodes cover a large part of the visible spectrum with high efficiency. For blue light, nitride diodes achieve external quantum efficiencies in excess of 65%. For red light, phosphor diodes achieve efficiencies of approximately 50%. However, so far no highly efficient monochromatic LEDs have been available for the “yellow gap” at around 560 nm.
Leveraging previous research on warm white light, the researchers succeeded in down-converting blue LED light into monochromatic amber light with a 595 nm wavelength and a color purity of 98.7%. The external quantum efficiency of the PC amber LED is at 30-40%, depending on temperature. Compared to direct amber LEDs, the new PC amber LED is two to five times as bright. It achieves a light output of 70 lumens at a 350 mA current.
There are numerous applications for the LUXEON Rebel PC Amber LED. It can be used in yellow traffic lights or signals as well as in cars’ turn signals or warning lights for construction sites. They could also be used in consumer electronics and their high efficiency makes them inexpensive.
December 22nd, 2009 | Posted in LED Technology | No Comments
It is reported that a tiny new LED power source could serve in applications ranging from automotive interiors to architectural fixtures to television backlights.
The device, measuring a scant 3.5 x 3.5 x 1.2 mm, could carve out a special niche for itself in hybrid vehicles and electric cars, where packaging is tight and power budgets are tighter, its manufacturer says.
“Due to its small size, you can put just one or two of them in an appliance and there’s still plenty of light,” says Rodney Bailey, vice president of optoelectronic components for TT electronics OPTEK Technology, maker of the new power source. “It’s attractive for electric hybrids because those vehicles need to use the bare minimum of current.”
Known as the OVS5MxBCR4 Series LED package, the new product dissipates a half a Watt of power, but is approximately half the size of other half-Watt power sources. Moreover, its low power-draw means it needs no thermal management, Optek engineers say.
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December 22nd, 2009 | Posted in LED Other | No Comments
It is reported that AeroLED sponsored a media lunch today at AirVenture 2009 to introduce their new line of high performance LED lighting solutions. Based on super-bright LED technology, which is fully replaceable with original lighting systems, pronounced “aerolead” the company produces retrofit and OEM lighting options.
Nate Calvin of AeroLED reported the company’s product is a direct replacement for existing incandescent, or “legacy systems” products now in the field, including a replacement for the GE 4509 landing light bulb. Components include options for replacement of navigation and strobe units as well.
Calvin said all components exceed FAR requirements for lumen output. Stating that incandescent systems operate in the 2500 Kelvin range whereas the AeroLED product operates in the 6500 Kelvin range, providing a more white colored and intense light output. The lighting is directional for the strobe application, more closely matching the diminishing requirements from horizontal to vertical plane of the FAR’s. The units are also on the order of 4 times lighter than traditional systems with significantly lower amperage draw.
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December 22nd, 2009 | Posted in LED Technology | No Comments
As we all know that LED (Light Emitting Diode) bulbs which will consume even less power than the CFL bulbs and once the mass production of Light Emitting Diode (LED) bulbs will start, its cost will go down. Gradually the era of electric bulbs will come to an end and only CFL bulbs will exist then. This will go a long way in promoting the LED bulbs among the masses,” said Venugopal, a senior member of the Delhi Electricity Regulatory Commission, on Wednesday.
The occasion was the Second Capacity Building Programme, organised by the department of Industrial and Management Engineering of IIT, Kanpur. On the second day of the six-day long programme, Dr Anoop Singh of IIT-K, Venugopal, member of DERC and others were present.
Venugopal also explained that the entire focus is on to encourage the people of the country to save power instead of adopting a careless attitude towards it. Shutting down power switches when power is not required is something which people need to inculcate in themselves as a habit.
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December 22nd, 2009 | Posted in LED Application | No Comments
According to a member of the Northeastern Pennsylvania Alliance, interest in energy-efficient traffic lights is brightening on Aug. 6.
Forty-three municipalities, including nine in Lackawanna County, have signed up to have incandescent traffic lights replaced with LED – light-emitting diode – bulbs, which require less energy to illuminate and don’t have to be changed as often, said Kurt Bauman, manager of the alliance’s energy assistance program.
“Incandescent bulbs go out more frequently,” he said. “LED bulbs are guaranteed for five years and expected to last 10 years.”
Throop is the latest municipality in the county to approve the switch. It has 17 traffic signals at two intersections – a total of 51 bulbs to be replaced.
Replacement work costs about $3,500 per intersection – 25 to 30 bulbs – including the price of the bulbs and installation, Mr. Bauman said.
Brightness is the most noticeable difference between LED and incandescent bulbs, Mr. Bauman said.
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December 22nd, 2009 | Posted in LED Application | No Comments
Until recently, most of us have used the incandescent lighting, which renders the color of objects more closely to that of natural light, in our homes. Fluorescent light was harsh and cold and typically used in offices.
Light is categorized by its color rendering index, or CRI for short, and its color temperature. CRI is how a light source, a bulb, causes the color of an object to appear to our eye and how well variations in color and shade are duplicated in comparison to natural light.
The CRI number is a rating from 0 to 100, the higher the CRI number the better the color. An incandescent bulb has a CRI of 100. Fluorescent lights can have CRIs of anywhere from 50% to 99%.
Color temperature is expressed on the Kelvin scale (K) is the color appearance of the bulb and the light it produces.
The color temperature of lamps makes them visually “warm,” “neutral” or “cool” light sources. The lower the temperature (2700-3000K) , the warmer the source, yellow-red colors. The higher the temperature(5000K) the cooler the source, green-blue color range.
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December 22nd, 2009 | Posted in Uncategorized | No Comments
In your home, lighting may be 10 percent of your bill. But in an office building it’s probably 40 percent, and so if you reduce your lighting energy consumption by a large fraction, the savings will be huge,” said James Brodrick, who leads the DOE’s solid-state lighting program.
A fact sheet from Brodrick’s office says this about LEDs: “In the coming decade, they will become a key to affordable net-zero energy buildings, buildings that produce at least as much energy annually as they use from the grid.”
The technology is advancing quickly, and costs will continue to drop, Brodrick said. The DOE tests LEDs and sets performance and efficiency guidelines under its Energy Star program.
LEDs are directional lights, used in recessed lighting and under-counter lights, for example. They’re not yet available as bulbs that cast light all around and fit in ordinary sockets.
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December 22nd, 2009 | Posted in LED Solutions | No Comments
It is said that energy-saving flat-panel television sets are about to become common in shops, spawning a whole new range of technical words to understand in Berlin.
Most manufacturers believe the best way to reduce TV power consumption is to change the type of lamp at the back of the flat panel, as well as to devise clever ways to reduce wasted light output.
The newest liquid-crystal-display (LCD) television sets are to feature LED backlights instead of the cold cathode fluorescent lamps (CCFL) which have done the job in the past. LED stands for light- emitting diode.
That is where the confusion starts, because at the same time, the electronics industry has been trying, without much success, to develop TV-sized displays where the image itself is formed by a matrix of LEDs.
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December 22nd, 2009 | Posted in LED Application | No Comments
There is now a new process under development to create ultrathin, ultrasmall inorganic light-emitting diodes (LEDs) and assembling them into large arrays, which offers new classes of lighting and display systems with interesting properties.
Applications for the arrays, which you can print onto flat or flexible substrates ranging from glass to plastic and rubber, include general illumination, high-resolution home theater displays, wearable health monitors, and biomedical imaging devices.
“Our goal is to marry some of the advantages of inorganic LED technology with the scalability, ease of processing, and resolution of organic LEDs,” said John Rogers, the Flory-Founder chair professor of Materials Science and Engineering at the University of Illinois.
Compared to organic LEDs, inorganic LEDs are brighter, more robust, and longer-lived. Organic LEDs, however, are attractive because you can form them on flexible substrates, in dense, interconnected arrays. The researchers’ new technology combines features of both.
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December 22nd, 2009 | Posted in LED Technology | No Comments
