NEC, National Institute for Materials Science, and Japan Science and Technology Agency Develop New 'Three Terminal Nanobridge' Switch Utilizing Deposition and Dissolution of Metallic Ions.Tokyo, Japan, Dec 6, 2005 - (JCN JCN Japan Corporate News JCN Journal of Cognitive Neuroscience JCN Journal of Cardiovascular Nursing JCN Journal of Christian Nursing JCN Job Control Number JCN Journal of Child Neurology JCN joint communications network (US DoD) Newswire) - NEC (NEC Corporation, Tokyo, www.nec.com, www.necus.com) An electronics conglomerate known in the U.S. for its monitors. In Japan, it had the lion's share of the PC market until the late 1990s (see PC 98). NEC was founded in Tokyo in 1899 as Nippon Electric Company, Ltd. Corporation (NEC), the National Institute for Materials Science materials science Study of the properties of solid materials and how those properties are determined by the material's composition and structure, both macroscopic and microscopic. (NIMS NIMS National Incident Management System (US Department of Homeland Security) NIMS National Institute for Materials Science (Japan) NIMS Near-Infrared Mapping Spectrometer ) and the Japan Science and Technology Agency (JST JST Japan Science and Technology Agency JST Japan Standard Time (GMT+0900) JST Jubilee Sailing Trust (UK) JST Joseph Smith Translation JST JWFC (Joint Warfighting Center) ) today announced the development of a new three-terminal switch, three-terminal NanoBridge(TM) (1*), which utilizes electrochemical electrochemical /elec·tro·chem·i·cal/ (-kem´i-k'l) pertaining to interaction or interconversion of chemical and electrical energies. e·lec·tro·chem·i·cal adj. reactions (deposition and dissolution) of metallic ions in a solid electrolyte (2*). Meeting the requirements for programmable-logic (3*) applications with its improved controllability, low resistance and reliability, the three-terminal NanoBridge(TM) switch solves the issues of its predecessor, the jointly developed two-terminal NanoBridge(TM) switch, bringing it closer to commercial application in this field. Results of this joint research project will be announced on December 6th at the International Electron Devices Meeting The International Electron Devices Meeting is an annual conference held alternatively in San Francisco, California and Washington D.C. Established in 1954, IEDM is the world's main forum on advancement in semiconductor and electronic devices. (IEDM IEDM International Electron Devices Meeting IEDM Institute Économique de Montréal ) being held in Washington DC, U.S.A. The two-terminal NanoBridge(TM) is composed of a solid electrolyte sandwiched between two terminals. A third terminal (a gate) has been added to this switch to create the new and advanced three-terminal NanoBridge(TM). This newly developed structure enables the following: Greater control: Control of the deposition and dissolution of metallic ions between the source and drain by applying voltage to the gate is realized, allowing the connection between the source and drain to be electrically connected and disconnected. Lower power consumption: A reduction in the electrical current flow during switching is enabled as the gate is insulated from all of the other electrodes. Improved reliability: Control of the thickness of the precipitated metal bridge is achieved, allowing a thicker bridge to achieve strong electromigration endurance (4*). The increasing importance of time to market in the development of electronic appliances in recent years has significantly increased the market share for field programmable logic See PLD. . Continuous reduction in LSI LSI: see integrated circuit. (Large Scale Integration) Between 3,000 and 100,000 transistors on a chip. See SSI, MSI, VLSI and ULSI. design features (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. ) enables programmable logic to enhance chip performance and reduce its price. However, it is anticipated that further miniaturization min·i·a·tur·ize tr.v. min·i·a·tur·ized, min·i·a·tur·iz·ing, min·i·a·tur·iz·es To plan or make on a greatly reduced scale. min will eventually become limited and lead to a higher demand for enhanced performance. NEC, NIMS, and JST are jointly developing NanoBridge(TM) technology as a programmable logic circuit reconfiguration switch, a development which represents a significant breakthrough in this field. NanoBridge(TM) technology utilizes the atom switching effect of a nanometer scale metal bridge, in which an electrically conductive channel is created or annihilated by stretching a metallic bridge controlled by an electrochemical reaction inside a solid electrolyte. This compact switch reduces chip area to a fraction of that of conventional ones, resulting in lower costs and higher performance. However, under the assumption of the same chip size, NanoBridge(TM) technology allows multiple functions to be packed into a single chip with programmable logic, thereby enabling large-scale applications. This is also achieved without reducing the feature size of LSI (5*). With the two-terminal NanoBridge(TM), switching between the on and off states was achieved by applying a voltage across the electrical path between the two terminals, resulting in the flow of a large electric current during switching. Therefore, a vast amount of power was consumed during switching, with greater chance of device breakdown due to an increase in joule heating. However, application to programmable logic necessitates a lower flow of current during switching. The two key points of the newly developed three-terminal NanoBridge(TM) are as follows: (1) The electrode area of the drain has been decreased to restrict the area in which metal can precipitate, allowing the source and drain to be connected by the metallic ions in the restricted area. (2) The distance between the source and drain has been made shorter than the distance between the gate and the other electrodes in order to prevent any connection between the gate and the other electrodes by metal deposition before the connection is made between the source and drain. By applying these two structural points, experimental operation of the three-terminal NanoBridge(TM) was successfully carried out, and a reduction in current by more than two digits as compared with the two-terminal NanoBridge(TM) during switching was confirmed. This technological advancement will enable a reduction in price and an improvement in performance of programmable devices, as well as improved development efficiency and higher performance of many electronic products such as mobile devices and digital TVs. Furthermore, owing to the reconfigurability of circuitry realized by NanoBridge(TM), every conceivable function will be enabled, even on small portable devices with limited LSI packaging space such as mobile phones. Part of this research is being carried out under the management of the "Nano quantum conductor array" project (project leader: Dr. M. Aono in NIMS) being carried out by ICORP ICORP International Cooperative Research Project (International Cooperative Research Project) of JST, in collaboration with joint research by NEC and NIMS. (*1) NanoBridge(TM) is a trademark of NEC Corporation. (*2) A solid body in which ions can move freely. (*3) LSIs whose circuitry can be reconfigured by customers, allowing device development time to be shortened and initial development costs to be dramatically cut. Reflecting the intense competition over device development, the programmable-logic market is expanding greatly. (*4) When current is flowed through metallic wiring, metal atoms are driven by the electron flow and resistance becomes high. At worst, wires can even break. This breakdown becomes more evident when the metallic wiring is finer. (*5) With conventional programmable logic, logic cells with a large number of transistors are used to reduce the number of switches. This is because the area of the semiconductor switch used for reconfiguration is large. As a result, in addition to degrading the usage efficiency ratio of the created circuits, this set up reduces the degree of freedom of pairing logic cells and the processing performance of parallel-arithmetic operations. On the contrary, since the size of the two-terminal NanoBridgeTM is one thirtieth the size of the conventional semiconductor switch, it is possible to use logic cells with fewer transistors. As a result, usage efficiency of the circuitry is improved by one digit, and the chip size for the same function performed by the two-terminal NanoBridgeTM is one tenth that for conventional programmable logic. Moreover, performance (namely, power consumption and operation speed) are improved. About The Japan Science and Technology Agency (JST) The Japan Science and Technology Corporation was founded on October 1, 1996, through the integration of two organizations, the Japan Information Center of Science and Technology (JICST JICST Japan Information Center of Science and Technology ) and the Research Development Corporation of Japan (JRDC JRDC Joint Regional Defense Command JRDC Joint Regional Defense Center ). JST is a key organization for implementing policies of the Science and Technology Agency (STA), at present, the Ministry of Education, Culture, Sports, Science and Technology (MEXT MEXT Ministry of Education, Culture, Sports, Science and Technology (Japan) MEXT Ministry of Education, Sports, Science and Technology (Japan) ). JICST was mainly engaged in dissemination of the information related to science and technology, while JRDC was primarily involved in the promotion of basic research, technology development and transfer, and promotion of research exchange. In addition to continuing and further developing the activities of these two organizations, JST has new objectives to provide an adequate foundation for enhancing Japan's science and technology and to promote the development of cutting-edge and innovative research in line with the Basic Law of Science and Technology enacted and promulgated prom·ul·gate tr.v. prom·ul·gat·ed, prom·ul·gat·ing, prom·ul·gates 1. To make known (a decree, for example) by public declaration; announce officially. See Synonyms at announce. 2. on November 15, 1995, and the Science and Technology Basic Plan decided by the Cabinet in May 1996. On October 1, 2003, the Japan Science and Technology Corporation was reorganized into an independent administrative institution An Independent Administrative Institution (独立行政法人, Dokuritsu gyōsei hōjin, IAI) is a newly designed type of legal body for Japanese governmental organizations regulated by the called the "Japan Science and Technology Agency" under the leadership of governmental plans to reorganize and integrate special public corporations. The acronym has not changed. For additional information, please visit the JST home page at: http://www.jst.go.jp/EN/ About The National Institute for Materials Science (NIMS) The National Institute for Materials Science (NIMS) is an Independent Administrative Institution of Japan which was established in April 2001 by merging two existing research institutions, the National Research Institute for Metals (NRIM NRIM National Research Institute for Metals (Japan) NRIM Narrow Resonance Infinite Mass NRIM Negative Refractive Index Material NRIM Network Resources Information Model ) and the National Institute for Research in Inorganic Materials (NIRIM NIRIM National Institute for Research in Inorganic Materials (Japan) ). NIMS has pursued the research in four priority fields under the Mid-term Plan established in line with the Second Science and Technology Basic Plan of Japan; nanomaterials, environment and energy materials, safe materials and improvement of research and intellectual infrastructure. For additional information, please visit the NIMS home page at: http://www.nims.go.jp/eng/about/whatsnims.html About NEC Corporation NEC Corporation (TSE See Tokyo Stock Exchange. TSE 1. See Tokyo Stock Exchange (TSE). 2. See Toronto Stock Exchange (TSE). : 6701)(NASDAQ NASDAQ in full National Association of Securities Dealers Automated Quotations U.S. market for over-the-counter securities. Established in 1971 by the National Association of Securities Dealers (NASD), NASDAQ is an automated quotation system that reports on : NIPNY)(UK: NEC.IL) is one of the world's leading providers of Internet, broadband network, and enterprise business solutions dedicated to meeting the specialized needs of its diverse and global base of customers. Ranked as one of the world's top patent-producing companies, NEC delivers tailored solutions in the key fields of computers, networking, and electron devices by integrating its technical strengths in IT and networks and by providing advanced semiconductor solutions through NEC Electronics Corporation. The NEC Group employs more than 140,000 people worldwide and had net sales Net Sales The amount a seller receives from the buyer after costs associated with the sale are deducted. Notes: This amount is calculated by subtracting the following items from gross sales: merchandise returned for credit, allowances for damaged or missing goods, freight of 4,855 billion yen (approx. $45.4 billion) in the fiscal year that ended in March 2005. For additional information, please visit the NEC website at: http://www.nec.com Source: NEC Corporation Contact: Diane Foley NEC Corporation d-foley@ax.jp.nec.com +81-3-3798-6511 Copyright [c] 2005 JCN Newswire. All rights reserved. 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