Hitachi, Ltd. (TSE: 6501) today announced the industry's first 512-bit synchronous DRAMs
(SDRAMs)-the HM5251165BTD Series (x16-bit configuration), HM5251805BTD Series
(x8-bit configuration), and HM5251405BTD Series (x4-bit configuration)-for use as main
and expansion memory in personal computers, workstations, servers, and similar products.
Sample shipments will begin in October 1999 in Japan. These new products employ Hitachi's
proprietary stacking technology to achieve integrated molding of two 256-Mbit SDRAM
chips, enabling the chips to be housed in the same 54-pin, 400-mil* TSOP-II package as a
256-Mbit SDRAM.
With the increasing system performance and capacity of information devices such as personal
computers and workstations, the capacity of the installed memory also continues to grow.
Meanwhile, the physical size of systems continue to shrink, restricting the space available for
memory installation. This has led to the demand for greater capacity per unit SDRAM in
order to achieve high-density mounting.
As a means of increasing unit memory capacity, Hitachi developed a stacking technology
whereby two memory chips are placed one above the other within a single package, and
already has 128-Mbit SDRAMs, employing two 64-Mbit SDRAM chips, in production.
Using this same technology, Hitachi has now developed the industry's first 512-Mbit
SDRAMs, employing two stacked 256-Mbit SDRAM chips.
These new products have a pin arrangement that is upward-compatible with 256-Mbit
SDRAMs, and provide twice the memory capacity in the same 54-pin, 400-mil TSOP-II
package mounting space. They also support a 100 MHz memory bus (PC100).
Future plans include the development of a model offering 133 MHz memory bus (PC133)
support.
Note: * 100 mil = 2.54 mm
< Typical Applications >
Main and expansion memory in personal computers, workstations, and servers
< Prices in Japan > (For Reference Only)
Product Code Configuration CAS Latency Sample Price (Yen)
HM5251165BTD-A6 8 Mwords x 16 bits CL=2 60,000
x 4 banks
HM5251165BTD-B6 8 Mwords x 16 bits CL=3 58,000
x 4 banks
HM5251805BTD-A6 16 Mwords x 8 bits CL=2 60,000
x 4 banks
HM5251805BTD-B6 16 Mwords x 8 bits CL=3 58,000
x 4 banks
HM5251405BTD-A6 32 Mwords x 4 bits CL=2 60,000
x 4 banks
HM5251405BTD-B6 32 Mwords x 4 bits CL=3 58,000
x 4 banks
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