Title :
A 16-Mb CMOS SRAM with a 2.3-μm2 single-bit-line memory cell
Author :
Sasaki, Katsuro ; Ueda, Kiyotsugu ; Takasugi, Koichi ; Toyoshima, Hiroshi ; Ishibashi, Koichiro ; Yamanaka, Toshiaki ; Hashimoto, Naotaka ; Ohki, Nagatoshi
Author_Institution :
Res. & Dev. Div., Hitachi Ltd., Tokyo, Japan
fDate :
11/1/1993 12:00:00 AM
Abstract :
A novel architecture that enables fast write/read in poly-PMOS load or high-resistance polyload single-bit-line cells is developed. The architecture for write uses alternate twin word activation (ATWA) with bit-line pulsing. A dummy cell is used to obtain a reference voltage for reading. An excellent balance between a normal cell signal line and a dummy cell signal line is attained using balanced common data-line architecture. A newly developed self-bias-control (SBC) sense amplifier provides excellent stability and fast sensing performance for input voltages close to VCC at a low power supply of 2.5 V. The single-bit-line architecture is incorporated in a 16-Mb SRAM, which was fabricated using 0.25-μm CMOS technology. The proposed single-bit-line architecture reduces the cell area to 2.3-μm2 , which is two-thirds of a conventional two-bit-line cell with the same processes. The 16-Mb SRAM, a test chip for a 64-Mb SRAM, shows a 15-ns address access time and a 20-ns cycle time
Keywords :
CMOS integrated circuits; SRAM chips; memory architecture; 0.25 mum; 15 ns; 16 Mbit; 2.5 V; 20 ns; CMOS SRAM; address access time; alternate twin word activation; balanced common data-line architecture; bit-line pulsing; cycle time; dummy cell signal line; fast sensing performance; fast write/read; high-resistance polyload single-bit-line cells; low power supply; poly-PMOS load; read circuits; self-bias-control sense amplifier; single-bit-line memory cell; stability; test chip; write circuits; CMOS technology; Current density; Degradation; Delay; Power supplies; Random access memory; Stability; Testing; Voltage; Wiring;
Journal_Title :
Solid-State Circuits, IEEE Journal of
