UC Irvine Engineering Professor Receives $1.2 Million to Create Next Generation of 'Phased Array' Antennas.Business Editors/Education Writers IRVINE, Calif.--(BUSINESS WIRE)--Oct. 7, 2003 Breakthrough Fabrication fabrication (fab´rikā´sh  n),n the construction or making of a restoration. Technology Expected to Spur Wider Commercial Use of These Adjustable Directive Antennas UC Irvine electrical engineering electrical engineering: see engineering. electrical engineering Branch of engineering concerned with the practical applications of electricity in all its forms, including those of electronics. professor Franco De Flaviis has been awarded a $1.2 million grant from DARPA DARPA: see Defense Advanced Research Projects Agency. (Defense Advanced Research Projects Agency) The name given to the U.S. Advanced Research Projects Agency during the 1980s. It was later renamed back to ARPA. (Defense Advanced Research Projects Administration) to fabricate lighter and less expensive "phased array" antennas that could be incorporated into commercial products. De Flaviis will create the antennas using a breakthrough technology he developed at UCI UCI University of California, Irvine UCI Union Cycliste Internationale (International Cycling Union) UCI Unidad de Cuidados Intensivos UCI United Cinemas International (UK) , the first to simultaneously fabricate an array of antennas and a phase shifter, the component that adjusts and directs the antennas. The technology eliminates the need to connect the pieces later in the assembly process, saving time and money and streamlining the design process. "With this new fabrication technology, we will be able manufacture large arrays that formerly cost $250,000 for a mere $15,000," said De Flaviis, associate professor in the Department of Electrical Engineering and Computer Science. "The technology will allow industry to incorporate powerful and sophisticated phased array antennas into commercial products such as laptops or televisions. For example, these antennas make it possible to provide direct TV in a car." Before today, the large size and high cost of phase array antennas prevented their use outside of the military. Unlike a single antenna found on a cell phone, an array of antennas offers significant advantages in wireless communications wireless communications System using radio-frequency, infrared, microwave, or other types of electromagnetic or acoustic waves in place of wires, cables, or fibre optics to transmit signals or data. . It delivers a stronger, more focused signal than a single antenna. A phased array system also is adjustable, so the user can point the signal toward a specific location, making it less likely to be intercepted. In developing the new class of phased array antennas, De Flaviis also achieved cost savings by using less expensive materials. The antennas and phase shifter are fabricated onto an inexpensive plastic printed circuit board, which is commonly used in personal computers. Until now, the shifter was fabricated on a base of gallium arsenide An alloy of gallium and arsenic compound (GaAs) that is used as the base material for chips. Several times faster than silicon, it is used in high frequency applications such as cellphones, DVD players and fiber optics. , an expensive semiconductor material. The new generation of antennas will be manufactured in the UCI Integrated Nanosystems Research Facility (INRF INRF Integrated Nanosystems Research Facility (University of California, Irvine) INRF Institut National de Recherche Forestière (French) ), an 8,600-square-foot clean room facility (class 10,000/1,000/100) offering all of the major semiconductor equipment, facilities and chemicals needed to fabricate microscale devices. The antennas also will undergo testing inside the UCI Microwave Lab's anechoic chamber Noun 1. anechoic chamber - a chamber having very little reverberation room - an area within a building enclosed by walls and floor and ceiling; "the rooms were very small but they had a nice view" , which is the largest in the UC system. The research team on the three-year project includes G.P. Li, UCI professor of electrical and computer engineering and director of the INRF, and Mark Bachman, assistant director of the INRF. About The Henry Samueli Henry Samueli (born September 20, 1954 in Buffalo, New York) is co-founder, chairman, and chief technology officer of the Broadcom Corporation and a philanthropist in the Orange County, California community. School of Engineering The Henry Samueli School of Engineering numbers nearly 3,000 students and 90 faculty in five departments: biomedical engineering Biomedical engineering An interdisciplinary field in which the principles, laws, and techniques of engineering, physics, chemistry, and other physical sciences are applied to facilitate progress in medicine, biology, and other life sciences. , chemical engineering and materials science, civil and environmental engineering, electrical engineering and computer science, and mechanical and aerospace engineering. The school also is home to numerous research centers, including the Integrated Nanosystems Research Facility, Center for Pervasive Communications and Computing, National Fuel Cell Research Center and Center for Biomedical Engineering. It also is a major participant in the California Institute for Telecommunications and Information Technology. For more information, visit www.eng.uci.edu. UCI maintains an online directory of faculty available as experts to the media. To access, visit: www.today.uci.edu/experts. |
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