Fujitsu Pioneers Use of Carbon Nanotubes for Heatsinks for Semiconductors; Paves Way for High-frequency, High Power Amplifiers for Deployment in Base Stations for Next-generation Mobile Communication Systems.Tokyo, Japan, Dec 5, 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) - Limited and Fujitsu Laboratories, Ltd. today announced that they have succeeded in the world's first development of carbon nanotube See nanotube. (1)-based heatsinks for semiconductor chips. The use of carbon nanotubes as heatsinks for high-frequency high power amplifiers successfully achieves heat dissipation Noun 1. heat dissipation - dissipation of heat chilling, cooling, temperature reduction - the process of becoming cooler; a falling temperature and high amplification simultaneously. The new technology represents a major step forward in developing practical applications that take advantage of the superior thermal conductivity of carbon nanotubes. It also enables the realization of high-performance amplifiers with high frequency and high power for next-generation mobile communication systems. Details of the technology will be presented at the IEEE (Institute of Electrical and Electronics Engineers, New York, www.ieee.org) A membership organization that includes engineers, scientists and students in electronics and allied fields. 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 ) to be held in Washington, D.C. from December 5. This research is part of the Advanced Nanocarbon Application Project consigned to the Japan Fine Ceramics Center, by Japan's New Energy and Industrial Technology Development Organization (NEDO NEDO National Eating Disorders Organization NEDO New Energy and Industrial Technology Development Organisation (Japan) NEDO National Economic Development Office ). Background The volume of information transmitted in our information age continues to grow, and 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. there is an increasing demand for higher power Higher power is a term used in a 12-step program, such as Alcoholics Anonymous, to describe "a power greater than yourself." Although many participants equate their higher power with God, a belief in God or in formal religion is not mandatory; the higher power is intended as a and higher frequencies in amplifiers used in mobile phone base stations. Because high power transistors, the output source for high-performance amplifiers, generate high levels of heat, heat dissipation is extremely important. Conventionally, heat was dissipated through the use of what is known as the "face-up structure" (Figure 1), in which a high power transistor chip would be connected directly dice-bonded to the package and the heat would escape through the chip. Technological Challenges At higher frequencies, amplifiers using the face-up structure suffer from reduced amplification. The cause is inductance inductance, quantity that measures the electromagnetic induction of an electric circuit component; it is a property of the component itself rather than of the circuit as a whole. (2) from the metal wire, through which the electrical current flows from the electrode of the transistor chip to the electrode of the package. One solution is to flip over the transistor chip and connect the chip electrode and the package electrode with short metallic bumps(3) made from gold or other metals, in what is known as a "flip-chip structure"(Figure 2). However, for use in high power amplifiers, conventional metallic bumps have proven inadequate in dissipating the high levels of heat generated by high-power transistors. For these reasons, it has been difficult to develop high-performance amplifiers that can satisfy both high-amplification and heat dissipation at high frequencies. Fujitsu's New Technology Fujitsu's new technology enables the simultaneous achievement of high amplification and heat dissipation, in high-frequency, high power amplifiers. Fujitsu has succeeded in the world's first application of carbon nanotubes, which have excellent thermal conductivity, for the bumps in a flip-chip structure (Figures 2 and 3). Key features of the technology: 1. Technology to grow carbon nanotubes This is a technology that uses an iron catalyst coating to grow carbon nanotubes to a vertical length of at least 15 micrometers on the wafer substrate. Usually, bumps for flip-chips are required to have a length of at least 10 micrometers. 2. Technology to connect the carbon nanotube bump to the flip-chip Taking advantage of the process 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 features of carbon nanotubes, by forming a miniature carbon nanotube bump patterned to match a high power transistor's miniature electrode pattern with a width no greater than 10 micrometers, Fujitsu succeeded in connecting the carbon nanotube bump to the flip-chip. Results With the technology, Fujitsu was able to connect carbon nanotube bumps to the miniature electrode of a high power transistor. Carbon nanotubes have thermal conductivity of 1400W/(m-K) - a level much higher than that of metal(4), and because it is possible to connect carbon nanotube-based bumps very near to the heat-generating miniature electrodes, Fujitsu successfully achieved the high amplification of flip-chips with heat dissipation levels equivalent to face-up structures. Compared to conventional face-up structures, ground inductance is reduced by more than half, thereby enabling an increase in amplification of at least 2 decibels at high frequencies of 5 gigahertz or greater. Future Developments Fujitsu intends to continue to refine the site density of carbon nanotubes in bumps to enable further improvements in heat dissipation, paving the way for development of high-frequency, high power flip-chip amplifiers using carbon nanotube bumps. Fujitsu targets deployment of this new technology in base stations for next-generation mobile communication systems in approximately three years. Glossary 1. Carbon nanotube: A tube made from a sheet of graphite (the same material used in pencils) that has been wrapped into a cylinder. As its name implies, the diameter of a nanotube A carbon molecule that resembles a cylinder made out of chicken wire one to two nanometers in diameter by any number of millimeters in length. Accidentally discovered by a Japanese researcher at NEC in 1990 while making Buckyballs, they have potential use in many applications. ranges from 1 to 10 nanometers, while its length is several thousand times longer than its diameter. These have superior physical properties, including tough mechanical strength, chemical stability, high thermal conductivity, low resistance, high aspect ratio, and high allowable current density. 2. Inductance: The electromotive force electromotive force, abbr. emf, difference in electric potential, or voltage, between the terminals of a source of electricity, e.g., a battery from which no current is being drawn. When current is drawn, the potential difference drops below the emf value. induced by changes in the electrical current running through a metal. 3. Bump: A protruding pro·trude v. pro·trud·ed, pro·trud·ing, pro·trudes v.tr. To push or thrust outward. v.intr. To jut out; project. See Synonyms at bulge. electrode on the surface of a semiconductor chip, formed through an evaporation method, plating method, or printing method. 4. A level much higher than that of metal: The conductivity of copper is approximately 400 W/(m-K), whereas gold has a conductivity of approximately 300 W/(m-K). About Fujitsu Limited Fujitsu Limited (TSE See Tokyo Stock Exchange. TSE 1. See Tokyo Stock Exchange (TSE). 2. See Toronto Stock Exchange (TSE). : 6702)(ADR ADR - Astra Digital Radio : FJTSY) is a leading provider of customer-focused IT and communications solutions for the global marketplace. Pace-setting device technologies, highly reliable computing and communications platforms, and a worldwide corps of systems and services experts uniquely position Fujitsu to deliver comprehensive solutions that open up infinite possibilities for its customers' success. Headquartered in Tokyo, Fujitsu Limited reported consolidated revenues of 4.7 trillion yen (US$44.5 billion) for the fiscal year ended March 31, 2005. For more information, please see: www.fujitsu.com. Source: Fujitsu Limited Contact: Fujitsu Press Inquiries: https://www-s.fujitsu.com/global/news/contacts/inquiries/index.html Fujitsu Laboratories Limited Nanotechnology Research Center Tel: +81-46-250-8234 E-mail:nano-mate@labs.fujitsu.com Copyright [c] 2005 JCN Newswire. All rights reserved. A division of Japan Corporate News Network K.K. |
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