Infineon Presents Cutting Edge Research Results in Non-Volatile Memory Technologies.MUNICH, Germany -- Infineon Technologies AG (NYSE NYSE See: New York Stock Exchange :IFX IFX - ["Type Reconstruction with First-Class Polymorphic Values", J. O'Toole et al, SIGPLAN Notices 24(7):207-217 (Jul 1989)]. )(FWB (Fixed Wireless Broadband) See fixed wireless. :IFX) is leading in the development of new non-volatile memory technologies. At the recently ended 2004 Symposia on VLSI Technologies and Circuits, June 15-19 in Honolulu, Hawaii, Infineon Technologies presented promising results on a broad range of non-volatile technologies for future memory products. 110nm NROM NROM Nitrided Read Only Memory NROM Nitride Read Only Memory NROM Non Volatile Rom Technology for Code and Data Flash Products The increasing demand for portable consumer products like notebooks, digital still cameras, MP3 players and PDAs requires storing large amounts of data on removable memory, such as flash memory cards, CompactFlash Cards or USB USB in full Universal Serial Bus Type of serial bus that allows peripheral devices (disks, modems, printers, digitizers, data gloves, etc.) to be easily connected to a computer. devices. Non-volatile memories for such mass storage applications are cost driven, i.e. they require lowest cost/bit solutions. By storing two separated bits in one cell the NROM technology, developed by Saifun, is highly attractive for cost competitive products. The recently introduced Twin-Flash products from Infineon Technologies Flash are built on this 2-bit/cell architecture. The NROM cell is based on localized charge trapping in the nitride layer of an ONO (oxide nitride oxide) gate dielectric. To maintain a small bit structure and low process complexity in the 110nm node, conceptual innovations need to be introduced. The new cell architecture presented by Infineon benefits from the advanced NMOS (N-Channel MOS) Pronounced "n-moss." A type of microelectronic circuit used for logic and memory chips. NMOS transistors are faster than their PMOS counterpart and more of them can be put on a single chip. It is also used in CMOS design. See MOSFET. transistors' scaling concepts. Infineon presented a novel, very competitive NROM generation with a bit size of only 0.043 square micron/bit at an 110nm design rule at VLSI VLSI: see integrated circuit. (1) (Very Large Scale Integration) Between 100,000 and one million transistors on a chip. See SSI, MSI, LSI and ULSI. (2) (VLSI Technology, Inc., Tempe, AZ, www.semiconductors. Symposia. The concept features mainstream CMOS (Complementary Metal Oxide Semiconductor) Pronounced "c-moss." The most widely used integrated circuit design. It is found in almost every electronic product from handheld devices to mainframes. type cell devices in conjunction with a virtual ground array architecture. The new technology serves both advanced code flash and file storage memories of up to 2 Gbit/die. Infineon Explores FinFET Sub-40nm Oxide-Nitride-Oxide Transistors for High-Density Flash Memory in the 16Gbit Range The scaling of floating gate flash memory transistors in the deep sub-100nm range faces serious challenges due to the thick tunnel oxides, which are required for reliable retention. Alternatively, charge trapping memory devices require inherently lower voltage and have good scaling properties. At the VLSI Symposium, Infineon's Corporate Research presented a novel FinFET (Fin Field Effect Transistor See FET. (electronics) field effect transistor - (FET) A transistor with a region of donor material with two terminals called the "source" and the "drain", and an adjoining region of acceptor material between, called the "gate". ) based charge trapping memory technology suitable for very high integration densities for flash memory. These new memory transistors make use of three gates to improve the electrostatic channel control and thereby their scalability. The charge is stored in a nitride-trapping layer that is adjacent on the three sides of a fin. In contrast to traditional floating gate cells, the tunnel oxide has excellent scaling properties since trapping layers are insensitive to single leakage paths. In this way, the Infineon researchers have achieved devices with very short gate length of 30nm-40nm that would enable up to 16Gbit per die in a NAND-type array, which is about a factor of 10 above the currently available densities in single-level operation. Furthermore, this technology does not require any new materials and is therefore fully compatible with the well-established CMOS technology. FeRAM -- Small and Highly Scalable 3-Dimensional FeRAM Cell with Vertical Capacitor In FeRAMs (Ferroelectric Random Access Memories) the remnant polarization of a ferroelectric Refers to a material that functions similarly to a ferromagnetic material in that it can be polarized into two states. Ferroelectric devices generally do not have any "ferrous" (iron) in them. See FeRAM and ferroelectric capacitor. thin film is used for information storage. Like MRAM (Magnetic RAM) A non-volatile, random access memory technology that is designed to initially replace flash memory and, potentially, DRAM memory. MRAM uses magnetic, thin film elements on a silicon substrate that can be built on the same chip with the logic circuits. , the FeRAM also represents a new paradigm New Paradigm In the investing world, a totally new way of doing things that has a huge effect on business. Notes: The word "paradigm" is defined as a pattern or model, and it has been used in science to refer to a theoretical framework. in memory technologies. The advantages of FeRAM technology include SRAM-like fast read and write performance and low power consumption. This makes the technology well suited for applications in game consoles, cellular phones, mobile products and chip-cards. Current FeRAMs still have a large cell size compared to DRAM or Flash, and development of a small and competitive FeRAM cell is therefore the key challenge. With the most widely pursued planar FeRAM cell concepts, only structural cell sizes down to approximately 10F-squared are achievable, with F being the minimum feature size of the process. In addition, planar FeRAM cells have a limited shrinkability. In order to address these deficiencies, Infineon and Toshiba presented at the VLSI Symposium a novel chain FeRAM cell concept using a new 3-dimensional vertical capacitor. This novel cell concept is highly scalable and enables structural cell sizes down to 4F-squared. In the vertical capacitor FeRAM cell presented by the researchers, the unit cell contains one transistor and one ferroelectric capacitor, which are connected in parallel. The contacts to the transistor and the vertical electrodes of the capacitor are shared among neighboring cells resulting in the compact cell structure. First promising results for this innovative cell concept were presented at the Symposium. About Infineon Infineon Technologies AG, Munich, Germany, offers semiconductor and system solutions for the automotive and industrial sectors, for applications in the wired communications markets, secure mobile solutions as well as memory products. With a global presence, Infineon operates in the U.S. from San Jose, CA, in the Asia-Pacific region from Singapore and in Japan from Tokyo. In fiscal year 2003 (ending September), the company achieved sales of Euro 6.15 billion with about 32,300 employees world-wide. Infineon is listed on the DAX index of the Frankfurt Stock Exchange Frankfurt Stock Exchange The largest of Germany's eight securities exchanges, operated by Deutsche Borse AS. and on the New York Stock Exchange New York Stock Exchange (NYSE) World's largest marketplace for securities. The exchange began as an informal meeting of 24 men in 1792 on what is now Wall Street in New York City. (ticker symbol:IFX). Further information is available at www.infineon.com. This news release is available at http://www.infineon.com/news. |
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