Liquid Crystal Display Trailblazer Receives Largest Prize for Invention in the United States; James Fergason's Achievements Recognized With $500,000 Lemelson-MIT Prize.CHICAGO -- James Fergason James Fergason (born Wakenda, Missouri, January 12, 1934) is an inventor of an improved Liquid Crystal Display, or LCD. After obtaining a Bachelor's Degree in physics from the University of Missouri in 1956, Fergason began his work on the practical uses of liquid crystals at just wanted to know if his thermal sensor A device that detects temperature. Thermal sensors are found in many laptops and desktop PCs in order to sound an alarm when a certain temperature has been exceeded. was actually working. In 1958, the young researcher at Westinghouse Research Laboratories began experimenting with liquid crystals and ended up paving the way for innovations ranging from forehead thermometers to mood rings, digital watches to computer monitors, and 3D video systems to flat-panel televisions. Fergason, who holds more than 130 U.S. patents and more than 500 foreign patents, is being honored today with the $500,000 Lemelson-MIT Prize The $500,000 Lemelson-MIT Prize, presented by the Lemelson-MIT Program(endowed in 1994 by Jerome H. Lemelson, and administered through the Massachusetts Institute of Technology) is awarded yearly to inventors from the United States for outstanding achievement. , the largest cash prize given in the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. for invention. The award will be given during a private ceremony at the Museum of Contemporary Art Chicago. "James Fergason's inventions are directly responsible for the creation of a multi-billion dollar liquid crystal display liquid crystal display (LCD) Optoelectronic device used in displays for watches, calculators, notebook computers, and other electronic devices. Current passed through specific portions of the liquid crystal solution causes the crystals to align, blocking the passage of light. industry that employs millions of people around the world," said Merton Flemings, director of the Lemelson-MIT Program The Lemelson-MIT Program is dedicated to honoring the acclaimed and unsung heroes who have helped improve our lives through invention. We inspire and encourage great inventors through various outreach programs such as Lemelson-MIT InvenTeams, a non-competitive, team-based national , which gives the annual award. "But those are not his only contributions to society. He is also a staunch advocate for independent inventors and has dedicated countless hours to this cause. We recognize his outstanding achievements in the awarding of this year's $500,000 Lemelson-MIT Prize." A Fact of Matter Fergason did not discover liquid crystals, nor was he the first to experiment with them. However, he said he was "the first guy who saw what they were really good for." As a young researcher, Fergason needed a way to measure the accuracy of a temperature-measuring device and he thought liquid crystals may be useful because of their sensitivity to temperature fluctuations and their ability to reflect colors. At that time, liquid crystals were a little-known academic curiosity with no clear, useful purpose. Fergason noticed other interesting properties of the materials as his experiments progressed. "When I started looking at liquid crystals, their optical activity caught my eye. They were intriguing as I got more and more into them. I found all kinds of things people hadn't thought about. They were the opposite of a mirror in terms of polarized A one-way direction of a signal or the molecules within a material pointing in one direction. light. It was great fun." He was issued his first patent in December 1963 for his use of cholesteric liquid crystals in temperature sensing applications. This technique is still used today in products ranging from forehead thermometers to mood rings. A Twist on Liquid Crystals A few years later, in 1966, Fergason was recruited to join the Liquid Crystal Institute The Glenn H. Brown Liquid Crystal Institute (LCI) is the nation's leader in liquid crystal technology and education, blending basic and applied research on liquid crystals. at Kent State University. There he discovered the twisted nematic field effect This article or section may contain original research or unverified claims. Please help Wikipedia by adding references. See the for details. This article has been tagged since September 2007. of liquid crystals - the key discovery that led to the creation of today's liquid crystal displays (LCDs). Fergason observed that liquid crystals are naturally twisted, but could be untwisted un·twist v. un·twist·ed, un·twist·ing, un·twists v.tr. To loosen or separate (something twisted) by turning in the opposite direction; unwind. v.intr. To become untwisted. with an electric current. Without a charge, light can pass through the liquid crystal cell. When varying amounts of voltage are applied, the liquid crystals can twist up Twist Up is a lemon-lime flavored soda distributed by Wal-Mart and Sam's Club. Its ingredients include carbonated water, high-fructose corn syrup and natural flavor. to 90 degrees like a Venetian blind to block the light's path. Earlier attempts to develop LCDs required lots of power that degraded the liquid crystal materials quickly. "Nobody thought you could switch polarized light efficiently enough to make a display out of it," he said. He proved that shuttering a liquid crystal requires very little energy, making nematic The stage between a crystal and a liquid that has a threadlike nature; for example, a liquid crystal. See crystalline and LCD. LCDs a highly efficient way to control light. In 1970, Fergason published a paper that broadly defined approaches for manufacturing nematic liquid crystal displays. He left the Liquid Crystal Institute and founded the International Liquid Crystal Company (Ilixco) to pursue his research and commercialize LCDs. Fergason's article struck a chord almost immediately in the electronics community. "I got 1,200 reprint requests, which is highly unusual for someone in my business," he said. Companies from medical devices manufacturers to photocopier photocopier Device for producing copies of text or graphic material by the use of light, heat, chemicals, or electrostatic charge. Most modern copiers use a method called xerography. manufacturers were interested in the possibilities afforded by a low-power, low-voltage display that was compatible with integrated circuit integrated circuit (IC), electronic circuit built on a semiconductor substrate, usually one of single-crystal silicon. The circuit, often called a chip, is packaged in a hermetically sealed case or a nonhermetic plastic capsule, with leads extending from it for drivers and produced a good contrast. Calculators and watches were the first products to benefit from Fergason's LCDs. Until then, products with digital displays lost their battery life quickly, making them undesirable to most consumers. LCDs were ideal for these low-voltage applications. The Gruen Watch Company was the first to use Fergason's technology and to produce a digital watch with his display. "Everybody wanted a James Bond watch," Fergason recalled, "but when they found out they had to change the battery every two weeks they weren't too interested. When they found out they could have a digital watch and keep the battery for two years, it became one of the top sellers." LCDs Everywhere Despite the popularity of early LCD devices, their mass-market penetration in other applications still took another decade. "When I was getting started, I would go on airplanes and count the number of products with liquid crystal displays in the Sharper Image catalogs," Fergason said. "Twenty, 30, 40 products would have liquid crystal displays. Now you go to the store and all the games, all the telephones... there are hundreds of millions of products made with them." Over the years Fergason invented a number of other LCD applications. In 1983 he was issued a patent for surface mode LCDs, which are used in products ranging from welding helmets to 3D video viewing systems. The following year he licensed a patent for polymer dispersed liquid crystals (PDLCs) to Raychem Corporation. These displays are used to make privacy windows that can change from clear to opaque with the flip of a switch. In 2001, Fergason founded Fergason Patent Properties, a company that broadly licenses his intellectual property on a non-exclusive basis to expand and enable new markets for electronic displays. The company is currently developing three new LCD-based technologies. System Synchronized Brightness Control (SSBC SSBC Stainless Steel Brakes Corporation (Clarence, New York) SSBC South Shore Baseball Club (Hingham, Massachusetts) SSBC Saint Stephen's Baptist Church (Temple Hills, Maryland) ) improves the contrast and dynamic range of LCDs in flat-panel televisions, desktop and laptop computer monitors, rear-projection televisions and presentation projectors. StereoMirror(TM) 3D Monitors bring a new level of brightness, color saturation and sharpness to stereo 3D desktop monitors. The RetroVue(TM) Head Mounted Projector is a sophisticated simulation system for in-vehicle training. A Champion of Independent Inventors In addition to his impact on today's consumer electronics industry, Fergason also champions the interests of independent inventors. In 2000, the Secretary of Commerce appointed him to the first Patent Public Advisory Committee. He advised the United States Patent and Trademark Office The United States Patent and Trademark Office (PTO or USPTO) is an agency in the United States Department of Commerce that provides patent protection to inventors and businesses for their inventions, and trademark registration for product and intellectual property (USPTO USPTO abbr. United States Patent and Trademark Office ) on policy and operational issues, and he helped develop a quality improvement program that is still in effect today. Nicholas Godici, a former commissioner for patents and acting undersecretary of commerce for intellectual property at the USPTO, vividly recalled Fergason's reception at the agency's Independent Inventor Conferences. "I can still picture Dr. Fergason standing before a packed house of aspiring inventors telling his story of hard work and success and the audience reacting as if he were a rock star," Godici said. "In fact, Jim Fergason is much more than that, he is an American hero." The Lemelson-MIT Program will also honor Sidney Pestka, inventor of disease-fighting interferons, with the $100,000 Lemelson-MIT Lifetime Achievement Award today. ABOUT THE LEMELSON-MIT PROGRAM The Lemelson-MIT Program aims to enable and inspire young people to pursue creative lives and careers. It particularly encourages young people to engage in invention and to pursue sustainable new solutions to real world problems. It accomplishes this mission through outreach activities and annual awards, including the $500,000 Lemelson-MIT Prize, the largest single award in the United States for invention. Jerome H. Lemelson Jerome "Jerry" Hal Lemelson (July 18, 1923 Staten Island, New York - October 1, 1997) was a prolific and controversial American inventor and patent holder. Biography Lemelson was born on Staten Island, New York, on July 18, 1923, the oldest of three brothers. , one of the world's most prolific inventors, and his wife Dorothy founded the Lemelson-MIT Program at the Massachusetts Institute of Technology Massachusetts Institute of Technology, at Cambridge; coeducational; chartered 1861, opened 1865 in Boston, moved 1916. It has long been recognized as an outstanding technological institute and its Sloan School of Management has notable programs in business, in 1994. It is funded by The Lemelson Foundation, a private philanthropy that celebrates and supports inventors and entrepreneurs in order to strengthen social and economic life. More information is online at http://web.mit.edu/invent. |
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