Tripping the light fantastic: forget dials and pointers, LCD screens, and incandescent illumination. If OLED technology can live up to its promise, automotive interiors will be very different places.Within 20 years or less, your PDA (Personal Digital Assistant) A handheld computer for managing contacts, appointments and tasks. It typically includes a name and address database, calendar, to-do list and note taker, which are the functions in a personal information manager (see PIM). will be a pen that has a full-color roll-out screen that does everything today's PDA screen does, but weights very little and takes up next to no room. Similarly, your paper or magazine will be downloaded to a lightweight flexible "book" that allows you to scroll through stories and save items of interest to an on-board chip. Laptop computers will follow the same path, ditching LCD screens for thinner (< 2 mm) screens that will unroll from the base. Your 80-in diagonal television will come in a tube and cover a large wall, while ultra-thin lighting fixtures that use very little energy replace fluorescent and incandescent illumination. What does this have to do with the future of cars and trucks? Everything. For the same OLED (Organic Light Emitting Device, Organic Light Emitting Diode) A thin film light-emitting technology that is expected to compete with LCD and plasma TVs as well as LCD monitors and readouts. (Organic Light Emitting Diode See LED. ) technology found in these examples will make its way into vehicle interiors. Despite stating that OLED technology is growing by 100% per year in small electronics and that technological barriers are falling, Dr. Alfred Felder, head of OSRAM Opto Semiconductors' OLED Business Unit (San Jose San Jose, city, United States San Jose (sănəzā`, săn hōzā`), city (1990 pop. 782,248), seat of Santa Clara co., W central Calif.; founded 1777, inc. 1850. , CA; www.osram-os.com), cautions patience: "Materials, processes, and capabilities are getting better all of the time, and we are coming close to automotive specifications with at least a couple of the colors necessary for a full-color display. However, there are some technical hurdles that must be overcome before we can move from an inflexible [glass-encased] to a flexible display that can meet OEM (Original Equipment Manufacturer) The rebranding of equipment and selling it. The term initially referred to the company that made the products (the "original" manufacturer), but eventually became widely used to refer to the organization that buys the products and specs." The hurdles include creating new UV-resistant plastics impermeable impermeable /im·per·me·a·ble/ (-per´me-ah-b'l) not permitting passage, as of fluid. im·per·me·a·ble adj. Impossible to permeate; not permitting passage. to moisture and air infiltration; materials that meets a 10-year life requirement under the harshest conditions (-40[degrees]C to 90[degrees]C, 1,500 hours at 85[degrees]C and 85% humidity, no more than a 5% loss of light output over its lifetime). Also, though the current cyan-blue used in prototype full-color displays is getting closer to the 10,000-hour automotive lifecycle requirements, Dr. Felder says, "It's quite good, but not the most effective color for automotive applications." However, blue OLEDs used to have a lifespan of just three minutes "Three Minutes" is the 46th episode of Lost. It is the twenty-second episode of the second season. The episode was directed by Stephen Williams, and written by Edward Kitsis and Adam Horowitz. It first aired on May 17, 2006 on ABC. before luminosity luminosity, in astronomy, the rate at which energy of all types is radiated by an object in all directions. A star's luminosity depends on its size and its temperature, varying as the square of the radius and the fourth power of the absolute surface temperature. fell 20%. Now it is over 1,500 hours, and they consistently go 35,000 hours before the number drops to 50% of its original value. The goal is 100,000 hours, which would put it on par with LCD technology, and recently some researchers claim they have seen 70,000 hours of operation before luminosity dropped by half. Both red and green OLEDs are at or beyond the 200,000 hour barrier, which means failing blue OLEDs would cause the color of the display to shift over extended periods. However, automotive OLEDs will have to run for just 10,000 hours with less than 5% degradation to be considered ready for production. "OLED displays," says Mike Gauthier, director of Corporate Technology, North America North America, third largest continent (1990 est. pop. 365,000,000), c.9,400,000 sq mi (24,346,000 sq km), the northern of the two continents of the Western Hemisphere. , Siemens VDO VDO (Vereinigte DEUTA (Deutsche Tachometerwerke GmbH) OTA (OTA Apparate GmbH)) is a manufacturer of information and cockpit systems, navigation, telematics, communication and audio systems and control and fuel systems. (Auburn Hills, MI; usa.siemensvdo.com), "have already made their way to MP3 players, cell phones, digital cameras, and aftermarket car radios. In-car entertainment systems will be next, and from there the technology will move to navigation screens, the instrument panel center stack displays, and finally to the instrument cluster." At first, these screens would be glass encased en·case tr.v. en·cased, en·cas·ing, en·cas·es To enclose in or as if in a case. en·case  ment n. , eventually migrating to flexible displays as the
technology reaches maturity. While Gauthier says the glass-encased
displays still would liberate space in the instrument panel--thereby
making more room for HVAC (Heating Ventilation Air Conditioning) In the home or small office with a handful of computers, HVAC is more for human comfort than the machines. In large datacenters, a humidity-free room with a steady, cool temperature is essential for the trouble-free ducting duct·ing n. 1. A duct or system of ducts. 2. Material for making ducts. , crash structures, and control units for vehicle systems--he sees a day when flexible screens take center stage. "Your PDA would double as the navigation system, and plug into a socket on the console. Later, the technology should allow a clear flexible screen to be laminated into the windshield and used as a giant heads-up display." The latter might even use "augmented reality" to display virtual road signs, the speed of traffic ahead, and paint lines on the road for the driver to follow to his destination. [ILLUSTRATION OMITTED] Both Gauthier and Felder agree OLEDs--which are manufactured using many of the same techniques used to make semiconductors--will follow a version of Moore's law "The number of transistors and resistors on a chip doubles every 18 months." By Intel co-founder Gordon Moore regarding the pace of semiconductor technology. He made this famous comment in 1965 when there were approximately 60 devices on a chip. that will see them get smaller and more capable as the price per unit of output diminishes. Today, the size of the conductive grid--the space between the X and Y electrical conductors--is measured in nanometers, with this gap expected to drop further. "We still have to fight with the yield of the displays, the cost of manufacturing, coming up with better materials, and how long they can last," says Felder, "but the best indicator of where this technology is going comes from looking at who is investing in it today." This group includes the U.S. Dept. of Defense and Dept. of Energy; Los Alamos and other national labs; major universities; companies like Siemens VDO, OSRAM, and Universal Display Corp.; as well as the largest manufacturers of LCD technology today. "There is a multi-billion dollar LCD infrastructure that isn't going to lie down and die without a fight," says Felder, "but makers of that display technology are some of the heaviest investors in OLED technology." [GRAPHIC OMITTED] One reason is that, as Gauthier puts it, "This is a disruptive technology, a real game changer Changer The name given to a clearing member that is willing to assume the opposite position of a futures contract within a larger alternative exchange, of which it also is a clearing member. that will overtake the display industry once it reaches its tipping point." Another is that the basic technology also can be used for illumination, making it possible for OEMs to source their OLED products from a wider variety of suppliers at a lower price. And while current OLED lighting technology is between 1/4 and 1/2 as efficient as state-of-the-art lighting technologies, there not only exists the potential to replace fluorescent lighting in buildings--OLEDs consume about 1/10 the energy to produce the same amount of light--but to weave flexible OLED screens into the headliner, backlight back·light n. A type of spotlight, used in photography, that illuminates a subject from behind. tr.v. back·light·ed or back·lit , back·light·ing, back·lights , and elsewhere within the vehicle. "You could easily replace existing lighting with this technology," says Gauthier, "and change the way you use light by weaving strips of this material into different areas of the interior." According to Felder, OLED lighting is moving forward rapidly: "Last year we could produce only seven lumens per Watt. Now we are close to 20." Still, as it was with so many earlier technologies, it will take an application, or series of applications, that allow the technology to reach the point where profits exceed costs, and consumer demand grows at a high rate. And though Dr. Felder cautions restraint, Gauthier claims his research shows that technology is moving forward at a much faster rate than ever before: "I doubt it will take 20 years before we see full-color OLED technology on the market in a wide and growing variety of applications." By Christopher A. Sawyer, Executive Editor |
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