LEDs Change Thinking About the Light Bulb

Lights are no longer just for lighting. With the development of LED lamp technology, the lowly light bulb is doing more than turning on and off. A lamp can be the centerpiece of an environment meant to improve health, moods and even food.

LEDs can create light in multiple colors, generate less heat and use a fraction of the energy of older types of bulbs. And LEDs can be controlled remotely from a PC or smartphone app, as programmable as a television.

“There’s a tremendous potential for LED lighting to go beyond illumination,” said John Strainic, General Electric’s general manager for consumer lighting. “We’re asking people to think about lighting as more than just an impulse purchase.”

Because of the LED manufacturing process, the light that the technology creates is weighted toward the blue end of the spectrum. That is true whether the LED is used in a light bulb, a tablet or a television display.

Philips sells a range of energy-enhancing lights, including the goLITE BLU, a panel of blue LEDs.

That blue light has its advantages: Blue stimulates a photoreceptor in the eye that reduces melatonin production and helps a person stay awake.

“You have to start thinking of light as a drug,” said Terry K. McGowan, the director of engineering for the American Lighting Association, a trade group.

That is why Lighting Science, an LED manufacturer, is now selling Awake and Alert, an LED lamp that keeps people pumped up by pumping up the blue. Conversely, the company’s Good Night lighting product reduces the blue output, helping people sleep. This summer, Lighting Science will offer its Rhythm Downlight, a lamp controlled by a smartphone app that adjusts blue light based on a user’s sleep schedule.

“The Awake and Alert lamp does not look brighter, but our circadian system sees it as such,” said Robert Soler, Lighting Science’s director of lighting research. “We always felt that there was so much more you can do with light than just increase vision.”

The Awake and Alert, an LED lamp from Lighting Science, pumps out blue light, which stimulates a photoreceptor in the eye that reduces melatonin production and helps a person stay awake.

Philips sells its own range of energy-enhancing lights, including its Wake-up Light and — to combat winter blues — the goLITE BLU, a panel of blue LEDs.

In Europe, Philips is experimenting with its HealWell system in hospitals. By changing colors based on time of day, it encourages a patient to wake up, feel more relaxed and sleep more easily. At a field study at the Maastricht University Medical Center in the Netherlands, cardiology patients were found to sleep longer and experience reduced depression.

In the United States, Lighting Science is working on a similar system, and expects to offer products by the end of this year. “Unfortunately, many hospitals have removed solariums, but lots of studies have shown that they improve recovery time,” said Mr. Soler of Lighting Science.

While the ability to alter an LED lamp’s color opens up new uses for light, the fact that LEDs can be remotely controlled significantly changes their potential.

With Osram Sylvania’s ULTRA iQ system, users can program lamps to turn on when a key is put in the lock. Philips’s Hue system, on the other hand, allows users to create their own lighting moods and then send those instructions to special lamps via a smartphone app. The lights can also be programmed to respond to specific events, such as by glowing a prescribed color when it is time to remove the roast from the oven.

Tabu’s Lumen TL800 lamp uses Bluetooth connectivity to control the lamp from a smartphone, allowing the user to change colors, dim the bulb and synchronize lighting effects to the rhythm of a song played on the phone.

Tabu’s Lumen TL800 lamp uses Bluetooth connectivity to control the lamp from a smartphone, allowing the user to change colors, dim the bulb and synchronize lighting effects to the rhythm of a song played on the phone.

But synchronizing lighting to events is much more than a parlor trick. Philips has designed lighting systems that decrease growing times and increase yield for greenhouse vegetables and flowers, by using a light’s specific hues.

In the Netherlands and Canada, among other places, tomato and vegetable growers are using Philips’s LEDs to improve bulk, increase fruit growth and reduce vegetable maturation time while reducing energy costs.

“We find the optimal light recipe for the grower,” said Udo van Slooten, a Philips Lighting general manager for horticulture.

Within the next few years, the world’s major lighting companies expect to expand LEDs’ connected capabilities, particularly with sensors.

For example, sensors could tell how many people are in a room and their location, and direct the proper amount of lighting to where it is needed. Medical patients prone to agitation could be calmed once facial recognition technology identifies them and changes the hue of an examining room to more calming tones. When older people enter a room, lighting intensity can be raised to compensate for their decreased ability to see.

“Today, lighting is becoming an appliance, like a blender,” said Mr. McGowan of the American Lighting Association. “I tell people when they move, they should take their LED bulbs with them.”

LEDs Change Thinking About the Light Bulb

Nichia, Everlight, Cree, Osram, Connected Lighting

Nichia and Everlight continue to scrap over intellectual property with the former taking new action, while Cree and Osram make executive appointments and The Connected Lighting Alliance will study commercial indoor SSL.

LED-Intellectual_Property

Nichia has announced new filings with the US District Court in its ongoing LED-centric patent dispute with Everlight Electronics. Cree and Osram have both made changes to their board of directors, and Cree promoted Norbert Hiller and launched a new LED lamp. The Connected Lighting Alliance, comprising some of the industry’s top lighting companies, has announced plans to study the controls situation in the indoor commercial solid-state lighting (SSL) sector.

Nichia and Everlight

Nichia and Everlight have waged an extended intellectual property (IP) battle with Nichia generally claiming Everlight has infringed the former’s patents, and Everlight attacking the validity of Nichia’s patents. In the latest amended complaint filed in US District Court for the Eastern District of Texas, Nichia asserts that Everlight, subsidiaries Everlight Americas and Zenaro Lighting, and Zenaro distributor Zitroz LLC are infringing four Nichia patents.

The latest action amends a September 11, 2013 filing centered on one specific Nichia US patent — 7,432,589 — and extends the claim to cover patents 7,462,870, 7,521,863, and 8,530,250. The lawsuit (2:13-cv-703) is pending before District Judge J. Rodney Gilstrap and Magistrate Judge Roy M. Payne.

As Nichia acknowledged in its most recent press announcement, the companies have active legal disputes ongoing in several other countries including Japan and Germany. In September, Nichia announced that a German court ruled in its favor in an infringement case. There has still been no word on damages in that action and apparently Everlight is still seeking to have the German court nullify the patent in question.

Everlight has also attacked the validity of a Nichia patent in the US this past March, and prior to that had filed its own patent infringement lawsuit against Nichia.

Cree lamp and exec moves

Moving to some product news and executive reshuffling, Cree has added a 75W-equivalent Soft White LED lamp to its A-lamp family. Apparently the design is near identical to the 60W product in terms of the LEDs used, although the drive current has been increased to enable 1100-lm output. The main change in the design is a noticeably bulkier and heavier heat sink to keep the LEDs cool at the elevated current. We have a detailed article on the A-19 SSL retrofit lamp over on our Illumination in Focus website.

Cree also has appointed Norbert Hiller to the position of executive vice president lighting. Hiller has served in a similar role in the company’s LED operation for more than two years. Apparently the move was driven by Cree’s increasing presence in the lighting space as witnessed by the lamp announcement.

“The growth in our LED fixture business combined with the success of the Cree LED bulb has expanded the scale of our lighting business and increased the focus on sales and marketing,” said Cree chairman and CEO Chuck Swoboda. “Norbert brings a unique skill set and track record of success to the next phase of Cree’s growth.”

Cree also announced that Anne Whitaker has been appointed to the company’s Board of Directors. Whitaker is president of Sanofi’s North American Pharmaceuticals operation. Swoboda said, “Anne has proven herself to be a leader throughout her career and her extensive experience in strategic management and organizational development will be a tremendous asset to our company as we continue to carry out our mission to accelerate the adoption of LED lighting.”

Osram executive announcement

Osram is also making changes to its Supervisory Board. Peter Bauer is the new chairman for both Osram Licht AG and Osram GmbH. Bauer had previously been a member of both boards and succeeds Siegfried Russwurm as chairman.

Osram had said back in June that Russwurm would be stepping down, and Bauer is a ready replacement having served as deputy chairman in the past. Bauer had a long career with Siemens and Infineon, and currently works as a management consultant.

The Connected Lighting Alliance

Moving to something of a technology story, The Connected Lighting Alliance has announced that it has formed a study group focused on lighting networks and controls for the commercial space. Previously the industry organization has been focused on the residential sector, having endorsed ZigBee Light Link as the technology of choice.

The action in the commercial sector focused on indoor lighting could have a major business impact because of the companies behind the organization. Founders include GE Lighting, Lutron, Osram, Panasonic, Philips, and Toshiba. If the organization decides to tap a specific technology, the action will carry broad impact.

“After the endorsement of ZigBee Light Link last summer, our members have decided to raise the bar and address the complex solutions required for indoor professional lighting,” said Simon den Uijl, secretary general of The Connected Lighting Alliance. “The benefit of this activity goes beyond stimulating the adoption of wireless lighting solutions and provides the lighting industry with an opportunity to interface with other industry stakeholders, such as building automation companies. We hereby invite any interested company to join the Alliance now and help shape the future of indoor professional lighting.”

Nichia, Everlight, Cree, Osram, Connected Lighting

Osram Joins Cree and Philips Lumileds in "Hot-Binning" with Oslon Square

Osram has started hot binning the Oslon Square which reportedly withstands high ambient temperatures particularly well. Osram notes that to ensure that the colors of several LEDs in a luminaire remain uniform even at higher temperatures. They are measured and binned at 85 degrees Celsius (°C), a temperature that comes very close to that encountered in lighting applications within buildings, in everything from spotlights to retrofit light sources. For this reason, Osram contends that measuring and binning at operating temperatures of 85° C is of great significance to customers who further process the light-emitting diodes into luminaires. According to Osram, its OEM customers receive precise information on parameters such as luminous flux or color stability, which they need to optimally define the properties of their products. Osram says it has optimized the heat dissipation of the Oslon Square to allow an increase in the junction temperature.

“With our new conversion technology, we can produce significantly thinner converter layers. The thinner layers better dissipate the heat, thus enabling the higher temperatures in the LED,” says Ivar Tangring, SSL Product Development at Osram Opto Semiconductors. Osram claims that with this heat dissipating structure, Oslon Square can reach a lifetime of considerably more than 50,000 hours even at high temperatures of up to 135° C in the LED.

In addition to longer life, Osram says that the improved temperature behavior leads to higher luminous efficacy in the application. “This luminous efficacy, meaning the ratio of luminous flux to applied electrical power, helps our customers to significantly optimize the price/performance ratio of their luminaire solutions,” Tangring emphasizes. Also, thanks to the higher permitted junction temperatures, fewer large heat sinks are required, the company pointed out

The Oslon Square comes in a color temperature ranging between 2,400 (warm white) and 5,000 Kelvin (cool white). The color rendering index of the LED is over 80 and the luminous flux is an impressive 202 lumens (lm) at 3000K operating at 700mA. This translates to about 100 lm/W at 2.9 V. Currently, Osram says that the new LED is undergoing extensive quality testing including the certification process under the LM-80 long lifetime standard. The results of the 3,000 hour test are expected at the end of the year, those of the 6,000 hour test in spring 2014.

---

LED hot binning

the-xlamp-mt-g-shown-here-was-the-first-LED-to-be-binned-hot-at-85c

As the name implies, hot binning is binning the LED lamps at a higher temperature than the conventional 25°C. The LED manufacturers who have decided to launch new products binned at an elevated temperature have converged on 85°C as the new conventional binning temperature. Though 85°C, like 25°C before it, is somewhat arbitrary, it has one major advantage it is a lot closer to the typical operating temperature of many solid-state lighting luminaires than 25°C.

Binning at 85°C makes the initial part of the design process slightly easier and more intuitive. For example, if a designer were working on an LED system that needed 1,000 lumens at an 85°C temperature, then he or she could simply select 10 LED lamps with a luminous flux of 100 lumens per LED, binned at 85°C. Thus, hot binning makes it easy to estimate the performance of these LED lamps in this real-world situation. On the other hand, if the LEDs were binned at 25°C, the same 10 LED lamps would need to be binned at 114 lumens each and de-rated per the LEDs mathematical framework (Fig. 3) to arrive at the same 1,000 lumen goal at the system level.

So, the good news is binning at 85°C makes the first-pass math more intuitive. The bad news is you still have to do the same math if your system runs or ever runs at any temperature other than 85°C. Examples of this would be outdoor luminaires (60° to 65°C is much more common) or freezer cases (20° to 25°C is typical) or downlights in insulated ceilings or almost any retrofit bulb (often over 100°C). In each of these cases the value of binning at 85°C is lost and the designer is back to doing the same math from a new mathematical framework where, arbitrarily, 85°C is now set to equal 100%.

---

OSLON Square LED

oslon-square–white-2nd-gen

Features

• Different luminous flux packages from one package family


• High luminous efficacy at high currents


• Superior corrosion robustness


• Binned at 85 °C


• 135 °C Tj max., 1.8 A If max.


• Package: SMT ceramic package with silicone resin and silicone lens


• Full CCT range available: 2400 K – 5000 K (warm and neutral white)


• CRI: min. 80 (typ. 82)


• Viewing angle at 50 % IV: 120°


• Luminous Flux: typ. 202 lm @ 3000 K, 85 °C


• Luminous efficacy: typ. 100 lm/W @ 3000 K, 85 °C


• Lumen Maintenance: Test results according to IESNA LM-80 available

Osram Joins Cree and Philips Lumileds in "Hot-Binning" with Oslon Square

Osram LED-based fixtures to light the Sistine Chapel"s Michelangelo frescoes

LED-based lighting will enable higher illuminance levels on iconic artwork in famed Rome cathedral while preserving the historically-significant work and utilizing 60% less energy.

the-sistine-chapels-michelangelo-frescoes-with-LED-lighting[/caption]

Osram’s lighting business has announced that it will be retrofitting the lighting in the Rome, Italy Sistine Chapel, using LED-based fixtures to highlight the Michelangelo frescoes. The project, involving custom-designed fixtures optimized for beam control and with a color spectrum that will highlight the pigmentation in the frescoes, will be completed next year, although a pilot project entitled LED4Art has already proven the concept.

While LED-based solid-state lighting (SSL) has long offered efficiency advantages compared to legacy sources, it’s a fairly recent development in which LED fixtures have become accepted in museum or historical settings where artwork is omnipresent. “Art presents the most demanding requirements on light,” said Peter Laier, Osram CTO. “Following the globally unique lighting solution in the Lenbachhaus Museum in Munich, the world-renowned frescoes in the Sistine Chapel are now being subjected to the same extremely high lighting specifications, once again underlining the authority of Osram as integrated lighting expert operating in accordance with maximum specifications.”

In the case of the Sistine Chapel, LED lighting will provide an immediate improvement in terms of the visitor experience. Views of the historic work have been hampered by the fact that the prior lighting was limited to 5–10 lx on the frescoes, combined in the daytime with natural light. Low light levels were in part used to ensure minimal degradation of the paintings, although the cathedral caretakers also wanted to ensure that the artificial light did not contrast with the natural light in terms of direction and focus.

The new lighting will be aimed precisely in the same direction as the natural light with the fixtures hidden below windows. The SSL project will ensure uniform lighting with no glare, although illuminance levels will rise to 50 to 100 lx — a level typical of museum lighting of artwork. That level will provide a much better viewing experience while still minimizing degradation of the work, especially since LEDs don’t emit energy in the UV band.

Despite the much higher light levels, Osram said that the new lighting will reduce energy consumption by more than 60%. The savings are due both to the efficiency of LEDs, and to precise beam control that will minimize light spill.

The European Subsidy Program for Information and Communication Technology within the Framework Program on Competitiveness and Innovation (PSP-CIP) subsidized the LED4Art pilot project. Osram is coordinating the project and other participants include the University of Pannonia in Hungary, the Institut de Recerca en Energia de Catalunya in Spain, and the planning offices of Faber Technica in Italy.

About Osram

Osram_Logo[/caption]

OSRAM Licht AG is a multinational lighting manufacturer headquartered in Munich, Germany. It is a world-leading lighting manufacturer.

OSRAM was founded in 1919 by the merger of the lighting businesses of Auergesellschaft, Siemens & Halske and Allgemeine Elektrizitäts-Gesellschaft (AEG). On July 5, 2013, OSRAM was spun-off from Siemens, the listing of the stocks began on July 8, 2013 on Frankfurt Stock Exchange.

Osram LED-based fixtures to light the Sistine Chapel"s Michelangelo frescoes

Osram and Dominant Settle Patent Dispute

Osram reports that it has settled its latest patent dispute with Maylaysian LED manufacturer Dominant Semiconductor. The two companies agreed to keep the details of the settlement confidential. Osram and Dominant appear to be unusually tight-lipped about even which patents were disputed. Although Osram acknowledged that as part of the settlement, it licensed certain patents to Dominant. The agreement reportedly covers patents in the field of opto-electronic semiconductor components.

The two companies have had ongoing patent disputes going back to at least 2006 when the United States International Trade Commission banned the importation of certain Dominant Semiconductor products into the United States due to patent violations. In the past, disputes between the two companies have involved Osram’s patents related to light conversion (phosphor) technology in white LEDs. It is not clear if these patents were related to the current settlement.

About Osram

Osram_Logo

OSRAM Licht AG is a multinational lighting manufacturer headquartered in Munich, Germany. It is a world-leading lighting manufacturer.

OSRAM was founded in 1919 by the merger of the lighting businesses of Auergesellschaft, Siemens & Halske and Allgemeine Elektrizitäts-Gesellschaft (AEG). On July 5, 2013, OSRAM was spun-off from Siemens, the listing of the stocks began on July 8, 2013 on Frankfurt Stock Exchange.

About Dominant Semiconductor

Dominant-Semiconductor-logo

DOMINANT Opto Technologies is a dynamic Malaysian Corporation that is amongst the world’s leading SMT LED manufacturers. Since year 2000, the prime activities of the company are in designing, developing and manufacturing of opto semiconductor components mainly Light Emitting Diodes.

Osram and Dominant Settle Patent Dispute

Osram Introduces LEDriving Fog

Osram-led-fog-and-daytime-running-light

Osram has introduced the LEDriving Fog, a combined daytime running light / fog lamp. It is reportedly the company’s first fully functioning replacement LED headlamp. It replaces conventional halogen fog lamps in many car models with state-of-the-art LED technology. The company is also introducing s inexpensive retrofit daytime running light with a four-pixel LED as well as colored retrofit lamps for vehicle interiors.

Product Describtion

Product benefits

• 5 year guarantee


• Homogenous light, without light points


• Low energy consumption


• Lens resistant against gravel impact


• Automatic operation thanks to intelligent regulation


• Easy installation

Areas of application

• Daytime running light


• Suitable replacement for almost all modern fog lights


• Fog light


• Suitable for 12 V and 24 V on-board power supply systems

Product features

Osram-LED-fog-and-daytime-running-light-kit-ledfog101

• LED fog light with daytime running light functionality


• Lightguide solution with high-quality LED technology


• Color temperature: up to 6,000 K


• Dimmable


• Long lifetime: up to 5,000 h


• Certified according to ECE, SAE, CCC regulations and IP homologated


• OEM technology


• Type of protection: IP67

Legal advice

ECE E1 approval

ECE R19/R87 approval

The LEDriving Fog has a rounded design and 90 millimeter diameter that can fully replace many conventional fog lamps with halogen technology without modifications to the car. According to Osram, the light uses OEM quality LEDs for both functions. Osram says that the LED light guide for the daytime running light function ensures uniformly bright light for better seeing and being seen. A wider LED beam angle enables the fog light to provide better visibility in poor weather conditions, and the brand product complies completely with ECE (Economic Commission for Europe) guidelines for both functions. LEDriving Fog also consumes up to 70% less electrical energy than conventional fog lights. The retrofit LEDriving PX-4 daytime running light has a dotted luminous surface, a slender design and suits most vehicle models. Osram claims it can be fitted in around 60 minutes with hardly any effort.

In a car’s interior, the retrofits from Osram reportedly fit into conventional incandescent lamp bases of types W5W, C5W and T4W. The 12V version of the automotive interior retrofit lamp, which was available until now in cool white and warm white, has been expanded blue and yellow LED lamp variants that can accents for boot (trunk), instrument and glove compartment lighting. Retrofits of types W5W and T4W in cool white or warm white are now also available for buses and trucks. Osram says that thanks to a special optic, the LED retrofit lamps feature homogeneous light and consume up to 80% less power than conventional lamps.

Osram Introduces LEDriving Fog