Title :
SOI-DRAM circuit technologies for low power high speed multigiga scale memories
Author :
Kuge, Shigehiro ; Morishita, Fukashi ; Tsuruda, Takahiro ; Tomishima, Shigeki ; Tsukude, Masaki ; Yamagata, Tadato ; Arimoto, Kazutami
Author_Institution :
ULSI Lab., Mitsubishi Electr. Corp., Hyogo, Japan
fDate :
4/1/1996 12:00:00 AM
Abstract :
This paper describes a silicon on insulator (SOI) DRAM which has a body bias controlling technique for high-speed circuit operation and a new type of redundancy for low standby power operation, aimed at high yield. The body bias controlling technique contributes to super-body synchronous sensing and body-bias controlled logic. The super-body synchronous sensing achieves 3.0 ns faster sensing than body synchronous sensing and the body-bias controlled logic realizes 8.0 ns faster peripheral logic operation compared with a conventional logic scheme, at 1.5 V in a 4 Gb-level SOI DRAM. The body-bias controlled logic also realizes a body-bias change current reduction of 1/20, compared with a bulk well-structure. A new type of redundancy that overcomes the standby current failure resulting from a wordline-bitline short is also discussed in respect of yield and area penalty
Keywords :
CMOS memory circuits; DRAM chips; redundancy; silicon-on-insulator; 1.5 V; 4 Gbit; SOI-DRAM circuit technologies; Si; body bias controlling technique; body-bias controlled logic; dynamic RAM; high-speed circuit operation; low power memory operation; low standby power operation; multigiga scale memories; redundancy; standby current failure; super-body synchronous sensing; wordline-bitline short; Capacitance; Circuits; Degradation; Logic; Low voltage; P-n junctions; Personal digital assistants; Random access memory; Redundancy; Silicon on insulator technology; Subthreshold current; Threshold voltage;
Journal_Title :
Solid-State Circuits, IEEE Journal of
