Fujitsu Microelectronics Limited (Fujitsu), a Japan-based designer and manufacturer of semiconductors, has introduced two new Consumer FCRAM memory chips, MB81EDS516545 and MB81EDS256545. The new chips feature an operating temperature range that has been extended to a high-temperature of 125°C with a DDR SDRAM interface. Sample shipment of the two new FCRAM products, the 512 Mbit, MB81EDS516545, and 256 Mbit, MB81EDS256545, will begin from May 19, 2009.
These products are low power consumption memory optimized for use in system-in-packages (SiPs) in digital consumer products such as digital TVs and digital video camcorders.
Customers will benefit from using these new FCRAM chips combined with a System-on-Chip (SoC) in a SiP configuration, in that as the temperature of the SiP rises with the increase of operating speed, the operation is not impaired or limited by the memory. Furthermore, there are the benefits of reduced development effort needed for product design, reduced board space, as well as a reduction in the number of components.
New digital consumer products continue to demand higher performance and faster speeds as well as low costs. To satisfy such needs, the use of SiPs, that combine for example a memory chip with a SoC, has been increasing. The use of SiPs also reduces the number of necessary components as well as reducing board space, thus helping to lower system costs. SiPs also make design easier, such as for the development of high-speed memory interfaces or for noise reduction measures.
Up until now conventional memory has given limitations to SiP usage that are resolved with the new FCRAM products. The SoC is specified to a maximum of 125°C so its operation is fine, however a conventional memory is used that can only operate up to 95°C so this SiP configuration is not usable.
To use such a conventional memory in the SiP, another option is to add some kind of heat disperser like a heat-sink. This would reduce the SiP temperature to 90 °C so operating is feasible; however there is increased cost and increases size. Subsequently, many customers who have been investigating using SiPs have wished for memory with an extended operating temperature range.
Fujitsu Microelectronics has responded to those needs by developing these 512Mbit and 256Mbit Consumer FCRAM products with a maximum operating temperature of 125°C. Using the 125°C rated FCRAM, the SiP operates fine even with a SoC with high power consumption, and without the need to add a heat-sink. This solves the problem of increased costs for thermal measures encountered when trying to use 95°C-rated conventional memory.
Furthermore, even for operating temperatures of 125°C, these FCRAM products can provide data transfer rates that are more than 2 times the data rate of conventional DDR SDRAM memory, while keeping power consumption low. In fact the new 512Mbit FCRAM for example can provide a reduction in power consumption of up to 50% compared to the equivalent conventional DDR2 SDRAM memory. Therefore these new FCRAMs also contribute to a 50% reduction of CO2 emissions from the memory in digital consumer products.
Fujitsu Microelectronics will continue to develop products with the necessary performance and functionality for SiPs in order to provide solutions for digital consumer products with optimal value and cost.
Sales Target:
1 million units per month in total.
Key Features:
World first operation up to 125°C:
These new FCRAMs have a maximum operating temperature of 125°C, so compared to conventional SDRAM memory, with maximum temperature specifications of 85°C or 95°C – the allowable power consumption within the system is greatly increased. Subsequently, it is possible to realize SiP solutions that were previously not possible, such as where high power consumption SoCs, needed in high-performance digital consumer electronics, combined with memory would lead to overheating. Also, it allows the use of low cost packaging that does not require high-temperature specifications.
Low power consumption:
By expanding the bus width to 64bits and reducing the operating frequency, and with terminating resistors not being required, these new FCRAMs enable a maximum of 50% reduction in power consumption compared to the equivalent system of two conventional DDR2 SDRAM memory chips with 16bit bus width. The new FCRAMs would also reduce CO2 emissions attributable to memory by 50% in digital consumer products.
High data bandwidth:
For operating temperatures of 125°C, by having a 64bit bus width and a maximum operating frequency of 200MHz, these new FCRAMs can provide a data transfer rate of 3.2Gbyte/second, which is 2 times the data rate of conventional DDR2 SDRAM memory. For operating temperatures of 105°C and below with an operating frequency of 216MHz, the data transfer rate increases to 3.46Gbyte/second.