Title :
A 14-ns 14-Mb CMOS DRAM with 300-mW active power
Author :
Kirihata, Toshiaki ; Dhong, Sang H. ; Kitamura, Koji ; Sunaga, Toshio ; Katayama, Yasunao ; Scheuerlein, Roy E. ; Satoh, Akashi ; Sakaue, Yoshinori ; Tobimatsu, Kentaroh ; Hosokawa, Koji ; Saitoh, Takaki ; Yoshikawa, Takefumi ; Hashimoto, Hideki ; Kazusaw
Author_Institution :
IBM Tokyo Res. Lab., Japan
fDate :
9/1/1992 12:00:00 AM
Abstract :
A 4-Mb high-speed DRAM (HSDRAM) has been developed and fabricated by using 0.7-μm Leff CMOS technology with PMOS arrays inside n-type wells and p-type substrate plate trench cells. The 13.18-mm×6.38-mm chip, organized as either 512 K word×8 b or 1 M word×4 b, achieves a nominal random-access time of 14 ns and a nominal column-access time of 7 ns, with a 3.6-V Vcc and provision of address multiplexing. The high level of performance is achieved by using a short-signal-path architecture with center bonding pads and a pulsed sensing scheme with a limited bit-line swing. A fast word-line boosting scheme and a two-stage word-line delay monitor provide fast word-line transition and detection. A new data output circuit, which interfaces a 3.6-V Vcc to a 5-V bus with an NMOS-only driver, also contributes to the fast access speed by means of a preconditioning scheme and boosting scheme. Limiting the bit-line voltage swing for bit-line sensing results in a low power dissipation of 300 mW for a 60-ns cycle time
Keywords :
CMOS integrated circuits; DRAM chips; 0.7 micron; 14 ns; 3.6 V; 300 mW; 4 Mbit; 60 ns; 7 ns; CMOS DRAM; NMOS-only driver; address multiplexing; center bonding pads; column-access time; high-speed dynamic, RAM; n-type wells; p-type substrate plate trench cells; preconditioning scheme; pulsed sensing scheme; random-access time; short-signal-path architecture; two-stage word-line delay monitor; word-line boosting scheme; Bonding; Boosting; CMOS technology; Circuits; DH-HEMTs; Delay; Laboratories; Power dissipation; Random access memory; Voltage;
Journal_Title :
Solid-State Circuits, IEEE Journal of
