Title :
High-speed sensing scheme for CMOS DRAMs
Author :
Dhong, Sang H. ; Lu, N.C.-C. ; Hwang, Wei ; Parke, S.A.
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
Abstract :
A significant improvement in sensing speed over the half-V/sub DD/ bit-line precharge sensing scheme is obtained by precharging the bit line to approximately 2/3 V/sub DD/. The 2/3-V/sub DD/ sensing scheme also results in higher-bit-line capacitance, asymmetrical bit-line swing, and higher power consumption. However, the speed advantage of 2/3-V/sub DD/ sensing may outweigh the disadvantages and can significantly improve DRAM performance. For the unboosted word-line case, symmetrical bit-line swing can be retained by limiting the bit-line downward voltage swing through a clamping circuit added to the sense amplifier, resulting in almost no loss of stored charge in a cell. The authors show that the 2/3-V/sub DD/ sensing with a limited bit-line swing has several distinct advantages over the half-V/sub DD/ sensing scheme and is particularly suitable for high-performance high density CMOS DRAMs.<>
Keywords :
CMOS integrated circuits; integrated memory circuits; random-access storage; CMOS DRAMs; bit line precharging; clamping circuit; dynamic RAM; high; high speed sensing scheme; limited bit-line swing; memory circuits; sense amplifier; Boosting; Capacitance; DH-HEMTs; Energy consumption; MOS devices; Power generation; Power supplies; Random access memory; Signal restoration; Threshold voltage;
Journal_Title :
Solid-State Circuits, IEEE Journal of
