Hitachi and Renesas Technology Develop 1.5-V Low-Power, High-Speed Phase Change Memory Module for On-Chip Nonvolatile Memory Applications.Confirmation of 416-kbyte/sec Write Throughput and 20-Nanosecond Read Operations With a 100-[eth]-A Write Current Memory Cell TOKYO -- In addressing the need for next-generation high-density on-chip non-volatile memory Refers to memory chips that hold their content without power being applied. It may refer to chips that are not changeable, such as ROMs and PROMs, or to chips that can be rewritten many times such as flash memory. technology, Hitachi, Ltd. and Renesas Technology Renesas Technology Corporation (ルネサス テクノロジ| Corp. today announced the development of a 512-kbyte (4-Mbit equivalent) phase change memory module operating at a 1.5-V power supply voltage, which achieves 416-kbyte/sec high-speed write and read speeds with a 20-nanosecond1 access time. Using the previously developed "low-power phase change memory cells" with a 100-[eth]-A (micro2-ampere) write current, the two companies developed a peripheral circuit technology to enable the high-speed write and read operations. Hitachi and Renesas Technology presented these results at the International Solid-State Circuits Conference International Solid-State Circuits Conference is a global forum for presentation of advances in solid-state circuits and Systems-on-a-Chip. The Conference offers a unique opportunity for engineers working at the cutting edge of IC design to maintain technical currency, and to (ISSCC ISSCC International Solid State Circuits Conference ISSCC International Student Services Center Corporation Limited ) held in San Francisco San Francisco (săn frănsĭs`kō), city (1990 pop. 723,959), coextensive with San Francisco co., W Calif., on the tip of a peninsula between the Pacific Ocean and San Francisco Bay, which are connected by the strait known as the Golden , U.S.A from February 11, 2007. In recent years, microcontrollers have become core components in various kinds of control and information devices ranging from industrial equipment to in-vehicle systems See automotive systems. , home electronics, and mobile phones. As products become more sophisticated and versatile, the amount of information handled by these microcontrollers has been rapidly increasing. Therefore, these microcontrollers require higher levels of performance and density in on-chip nonvolatile memory See non-volatile memory. for storing data and programs. At the same time, phase change memory is becoming a promising candidate for next-generation on-chip nonvolatile memory due to its high endurance of write cycles, simple structure, and ease of fabrication fabrication (fab´rikā´sh  n),n the construction or making of a restoration. . Phase change memory is a type of nonvolatile memory that exploits two-phase changes in electrical resistance of a film caused by Joule joule (j  l, joul), abbr. J, unit of work or energy in the mks system of units, which is based on the metric system; it is the work done or energy expended by a force of 1 newton acting through heat, which is generated by a current -- an amorphous state3 (high
resistance) and a crystalline state (low resistance). Using these
differences in electrical resistance as "1" and "0"
information, it performs storage and readout (1) A small display device that typically shows only a few digits or a couple of lines of data.(2) Any display screen or panel. operations. Hitachi and Renesas Technology have previously developed a low-power-operation phase change memory that can be written with a 1.5-V power supply voltage and 100-[eth]-A current using tantalum pentoxide for the interfacial layer. As the write voltage can be lowered compared with conventional on-chip nonvolatile memory, this memory offers advantages such as eliminating a need for a power supply circuit that generates a high voltage within a chip, helping to reduce the module size, and achieving a high level of density. However, because the readout current is small, it is critical to have a memory array circuit technology that enables high-speed operation despite its small current. Features of the newly developed circuit technology are as follows. [TABLE OMITTED] An experimental 512-kbyte memory module was fabricated using a 130-nm 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. process, employing the newly developed circuit technology for cells writable at 100 [eth]-A. Test results confirmed the possibility of 416-kbyte/sec write operations and 20-nanosecond read operations, and high-speed operation was achieved while maintaining the performance of low-power-operation phase change memory cells. This technology is expected to promote the implementation of next-generation highly-integrated on-chip nonvolatile memory, and to support significant advances in the development of future microcontrollers for embedded systems. About Hitachi, Ltd. Hitachi, Ltd., (NYSE NYSE See: New York Stock Exchange :HIT)(TOKYO:6501), headquartered in Tokyo, Japan, is a leading global electronics company with approximately 356,000 employees worldwide. Fiscal 2005 (ended March 31, 2006) consolidated sales totaled 9,464 billion yen ($80.9 billion). The company offers a wide range of systems, products and services in market sectors including information systems, electronic devices, power and industrial systems, consumer products, materials and financial services. For more information on Hitachi, please visit the company's website at http://www.hitachi.com. About Renesas Technology Corp. Renesas Technology Corp. is one of the world's leading semiconductor system solutions providers for mobile, automotive and PC/AV (Audio Visual) markets and the world's No.1 supplier of microcontrollers. It is also a leading provider of LCD Driver ICs, Smart Card microcontrollers, RF-ICs, High Power Amplifiers, Mixed Signal ICs, System-on-Chip (SoC), System-in-Package (SiP) and more. Established in 2003 as a joint venture between Hitachi, Ltd. (TOKYO:6501)(NYSE:HIT) and Mitsubishi Electric Corporation (TOKYO:6503), Renesas Technology achieved consolidated revenue of 906 billion JPY JPY In currencies, this is the abbreviation for the Japanese Yen. Notes: The currency market, also known as the Foreign Exchange market, is the largest financial market in the world, with a daily average volume of over US $1 trillion. in FY2005 (end of March 2006). Renesas Technology is based in Tokyo, Japan and has a global network of manufacturing, design and sales operations in around 20 countries with about 26,200 employees worldwide. For further information, please visit http://www.renesas.com. *Product names, company names, or brands mentioned are the property of their respective owners. Terminology 1 Nano: One billionth 2 Micro: One millionth 3 Amorphous state: A state in which atoms, molecules, and so forth making up a solid do not have a regular structure like that of a crystal. Also referred to as a noncrystalline state. |
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