Samsung Develops 1-Gigabit OneNAND TM Flash Memory for Next-Generation Mobile Phone


Samsung Electronics Co., Ltd., the leader in advanced semiconductor technology, has announced the successful development of a 1Gigabit (Gb) OneNAND TM Flash memory device utilizing Samsung's advanced 90nm process technology. By introducing this high density OneNAND Flash memory device, Samsung expands its diverse portfolio of flash technology to fully support the advanced multimedia features associated with next generation handsets and other mobile applications.
Samsung's OneNAND device, providing a new Unified Storage concept, combines the high-speed data read function of NOR flash and the advanced data storage of NAND flash. The single chip is based on NAND architecture integrating buffer memory and logic interface.
Featuring a 66MHz synchronous interface and cache read function that enable an enhanced read performance of 108MBytes per second (MBps), the 1Gb OneNAND Flash boasts a four-fold read speed increase over conventional NAND Flash performance. Its faster read speeds resolves the delay time in copying the boot code from the NAND Flash to the DRAM and executing applications on-demand.
Today, a continuous multi-shot capability is limited to the DRAM buffer size. The 1Gb OneNAND delivers 10MBps of write speed, enabling direct write into the total Flash memory space without the need for DRAM buffering. This provides continuous, multi-shot capturing of 5-Megapixel images and real-time recording of VGA resolution video.
The OneNAND device also supports enhanced security features. An OTP block has been integrated into its design to prevent forgery. In addition, a lock function for the memory block unit is available to protect the operating system from viruses.
Samsung's OneNAND Flash solution is available separately or can be mounted together with a mobile SDRAM in an MCP to effectively execute the key operations on feature intensive next-generation mobile phones. Placing two 1Gb OneNAND Flash and one mobile SDRAM in a 3chip MCP, can satisfy the high performance, multimedia memory requirements of 3G mobile handsets.
Samsung's complementary Flash software solution includes a selection of operating software, an interface to RTOS file systems, all respective device drivers, and software development tools that further facilitate the application of OneNAND to mobile handsets.
Since initial market introduction in 2003, Samsung's OneNAND Flash technology is now adopted by more than 10 leading set designers in over 20 advanced mobile applications covering a broad field of mobile handsets, PDA, DSC, DTV, game consoles, and navigator systems.
Samsung will show its 1Gb OneNAND Flash and MCP-based mobile memory solutions at the Electronica 2004 Conference in Munich, Germany, November 9 - 12. Samsung's booth number is A4 107 in Hall A4 at the New Munich Trade Fair Centre. nw



Samsung Electronics : World's First VGA-class TFT-LCD Driver IC for Mobile Phones

Samsung Electronics, a leader in advanced silicon technology solutions, has developed a TFT-LCD driver IC chip with VGA-class resolution capable of displaying up to 260K colors for TFT-LCD panels in mobile phones.
Samsung's new driver ICs generates color using an entirely new driving method, which is called sub-pixel unit driving methodology. Contrary to existing color display method that expresses color pixel by pixel, this new method creates color at the sub-pixel level representing more than two data from the same pixel. By composing a new pixel with the sub-pixel on the adjacent scanning line, 480*640 VGA resolution can be attained from a 240*640 half-VGA panel.
Additionally, the problem of dark screen due to the increased pixel density on high resolution panels has been solved using 4-color (R-G-B-W) rendering algorithm that greatly improves the brightness of TFT-LCD panels. With this 4-color rendering algorithm, which extracts white signal from R-G-B signal input and processes 4-color R-G-B-W, the brightness of panel is increased more than 50 percent.
The new driver IC has overcome the physically impossible VGA-class and higher resolution images on small size TFT-LCD panels of less than 2.4 inches by resolving the vast space required for wiring connections between the panel and driver IC. Darker screens, due to the limited exposure area of a single pixel, also have been settled by adopting the sub-pixel rendering method and 4 color technology.
Conventional technologies for extracting white from red, green and blue have been plagued with color distortion when the white color is added by more than 15 percent. Samsung's new white-adding algorithm prevents any color distortion, even when white is fully added. At the same time, uniform color quality is maintained between input and output,.
"Development of high-resolution displays is urgently needed with the advent of camera phones, video phones, TV phones and other new products that require an entirely different level of image quality," said Dr. Kim Jin-tae, vice president of System LSI Division at Samsung Electronics. "The 4-color sub-pixel rendering technology we recently developed will play a key role in the transition to ultra-high-resolution panels for mobile products. Moreover, our development of this new chip will put us in an advantageous position in the hotly-contested market for mobile size displays."
The new technology is a result of synergy between respective business and R&D function at Samsung: the semiconductor technology of System LSI Division and the display technology of LCD Business, together with the patented algorithm for adding the color white from Samsung Advanced Institute of Technology (SAIT)
Samsung Electronics plans to begin using its VGA TFT-LCD driver IC on high-end mobile phone models in the second quarter of 2005. The company will then steadily expand its application to other product lines.
Market analyst firm, iSuppli, estimates that the market for mobile TFT-LCDs stands at 250 million units this year and the number is predicted to surge to 530 million units in 2007. nw